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ICAME - 2022 Abstract Proceeding Flipbook PDF
International Conference on Advances in Mechanical Engineering (ICAME - 2022)
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International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Table of Content Message from Hon. Chairman, BoG
3
Message from Executive Director, RGI
4
Message from Honorary Chair’s
5
Message from Convener’s
6
Preamble from Organizing Committee
7
Message from Chief Guest of Inaugural Functiom
8
Message from Chief Guest of Valedictory Function
9
Message from Guest of Honor
10
Organizing Committee
11
Program Schedule
12
Technical Session – Production & Industrial
14
Technical Session – Design
22
Technical Session – Thermal
28
Technical Session – Materials
34
Edited By Dr. Ashish Raut, Prof. Swapnil Nishane
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Message from Hon. Chairman, BoG
Mr. Sunil Raisoni Chairman BoG It gives me immense pleasure to welcome all the authors, researchers, academicians, delegates, keynote speakers, session chairs, and experts of the panel discussion for being the part of the International Conference on Advances in Mechanical Engineering (ICAME -2022) to be held on 27-28 May 2022. The conference is indexed by IOP Conference Series, Proceedings Services for Science Materials Science and Engineering (MSE), which will broadly cover recent advances in Mechanical Engineering. Various technologies like smart industrial atomization, new advanced design techniques, advanced thermal systems, advanced manufacturing systems and robotics are driving the nation to lead in industrial revolution, etc. The plenary talks and technical deliberation during the conference will benefit researchers, delegates and authors in broad perspective, shall result into concrete solutions, which will benefit industries in specific and society in general.
I heartily congratulate the organizing committee of ICAME -2022 and wish them a grand success.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Message from Executive Director, RGI
Mr. Shreyas Raisoni Executive Director, RGI At the outset, on behalf of RGI Group and on my personal behalf, I convey my warm greetings to the researchers, delegates, conference member and students. It is my privilege to welcome you to the International Conference on Advances in Mechanical Engineering - 2022 (ICAME -2022) jointly organized by the Department of Mechanical Engineering, G H Raisoni College of Engineering, Nagpur, India and G H Raisoni Institute of Engineering and Technology, Nagpur, India with Technical support by IOP Conference Series, Proceedings Services for Science Materials Science and Engineering (MSE). I am very happy to note that this conference is providing a platform to Academicians, Researchers, Practicing Engineers, Students, and Young Professionals for knowledge and experience sharing. Department of Mechanical Engineering, G H Raisoni College of Engineering, Nagpur, India and G H Raisoni Institute of Engineering and Technology, Nagpur, India, the hosts of this conference, stands out for its outstanding efforts to make this event a grand success. The program provides a variety of interesting aspects on Technology involving eminent speakers. A very meaningful agenda has been put together by the organizers and I am sure that the participants will derive immense benefit out of this conference. I request the participants of this conference to become leaders at the local, regional, or global levels in the days and years to come. I also urge upon the participants to be the agent for ‘advancing technology for the benefit of humanity’. In the end, I would like to thank all concerned, who have worked untiringly in creating this fine conference. I wish all participants a wonderful and memorable conference.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Message from Honorary Chairs
Dr. Sachin Untawale Director, G H Raisoni College of Engineering, Nagpur
Dr. Vivek Kapur Director, G H Raisoni Institute of Engineering and Technology, Nagpur
It gives us immense pleasure in welcoming all of you to the International Conference on Advances in Mechanical Engineering (ICAME-2022) to be held on 27-28 May 2022 in online mode at GHRCE & GHRIET. Recent thrust areas like smart industrial atomization, new advanced design techniques, advanced thermal systems, advanced manufacturing processes, robotics, power system, resources engineering will be covered during these 2 days. We, humbly welcome all invited speakers and all authors who have submitted their research papers in the domain. We also extend our cordial invitation to all the attendees for registering and attending ICAME -2022. We sure that the sessions planned during these two days of the conference will be highly enriching and knowledge gaining experience for the delegates & will provide them a great platform for their further research work. We would also like to congratulate the entire team of ICAME -2022 for toiling hard to provide this platform to the researchers not only for sharing their research findings but also for getting acquainted with latest research. We wish all of you a great success for ICAME -2022.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Welcome address from Convener’s
Dr. Rupesh Shelke
Prof. Tejpal Parashiwanikar
Welcome to the International Conference on Advances in Mechanical Engineering (ICAME - 2022) to be held on 27-28 May 2022. In online mode at G H Raisoni College of Engineering, Nagpur, and G H Raisoni Institue of Engineering and Technology, Nagpur. The Mechanical Engineering industry is progressing at a very faster pace and bringing prosperity to the nation and people with the advancement of new technologies in electromechanical atomization, this includes the latest advanced machhigh-endgh end CAD modeling and simulations techniques before manufacturing, and resources engineering in the modern era. In order to meet the pace of electromechanical advancement without sacrificing the quality of product, the adoption of advanced technology is a must. The conference also aims at providing a platform to bring the researchers, academicians, and industry persons in sharing their experiences and acquiring relevant knowledge in the field of Mechanical Engineering technology development. The two days conference will feature prominent keynote speakers, and paper presentations in parallel tracks. ICAME - 2022 is also supported by IOP Conference Series, Proceedings Services for Science Materials Science and Engineering (MSE) . Many hands worked hard behind the curtain for the success of the International Conference ICAME – 2022. First and foremost, we would like to thank all the authors for their overwhelming response and for submitting the papers to the conference for their presentation and discussion during the conference. Our sincere thanks to all program committee members and reviewers, who carried out the most difficult task of evaluating submitted papers. Last but not least we would like to thank GHRCE & GHRIET Management for conducting this conference which will provide a good platform for technology transfer between students, academicians, researchers & industry persons. ICAME -2022, received around 136 plus papers from more than 3 countries like, Germany, United State of America, Turkey, etc. Each paper is peer-reviewed by experts and practitioners. The acceptance rate of the papers was 50%. There shall be keynote & plenary talks by well-known academicians and industry people. Our special thanks to Dr. Manoj Gupta, National University Singapore, Dr. Sukanta Roy, Curtin University Malaysia, Dr. Shuva Ghosh, Bangladesh University of Engineering & Technology, Bangladesh, Dr. Krunal Girase, Tokushima University, Japan, Dr. Sanjay Chintakindi, King Saud University, Saudi Arabia, Dr. Fatih M. Botsali, Konya Technical University, Turkey, Dr. Milind Atrey, IIT, Bombay, Dr. Devendra Deshmukh, IIT, Indore, Dr. Manoj Soni, BITS, Pilani, Dr. V. K. Gupta, IIITDM, Jabalpur, Dr. V. M. Phalle, VJTI, Mumbai, Dr. Puneet Tandon, IIITDM, Jabalpur, Dr. N. P. Gulhane, VJTI, Mumbai, Dr. S. H. Gawande, M.E.S. CoE., Pune We take this opportunity to thank Easy Chair Conference Management System which was prominently used for this conference.We congratulate the whole team of organizers of ICAME – 2022 for organizing such a significant event and we wish all the flying color success to the ICAME – 2022.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Preamble from Organizing Committee Welcome to G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering and Technology, Nagpur! International conference on Advances in Mechanical Engineering (ICAME – 2022) to be held on 27 – 28 May 2022 in online mode at G H Raisoni College of Engineering, Nagpur, and G H Raisoni Institute of Engineering, Nagpur. The event has truly acquired the international status. Besides the regular papers and interactive presentations, the conference will also feature keynotes, and plenary sessions. The program also includes keynote address and plenary talks with wide spectrum of topics covered. Today world is moving towards advanced and smart technologies. This requires to break the discipline wise barrier and multidisciplinary approach needs to be taken for innovating the solutions. Keeping in mind this need we are sure this conference has taken right theme for deliberations,
keeping on special focus on recent development in industrial technology,
manufacturing technology, design and thermal engineering, environmental engineering, materials engineering. The technical sessions are categorized in the up-coming areas like Thermal, Production & Industrial, Design, and Material. Deliberations of research scholars from entire cross section of engineering professionals and academic fraternity on above themes and outcome of the conference shall help Indian industries to compete globally. On behalf of ICAME – 2022, we hope that researchers, delegates, and authors will extract maximum benefit and a concrete solution to certain problems can be derived, which can benefit the society at large.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Message from Chief Guest
The present time in history of human civilization demands knowledge to drive economic growth and to realize prosperity. All the advanced countries currently are the one where people are well educated and trained to use knowledge to bring comfort in their life in terms of food, shelter, infrastructure and security. The generation, ownership and transmission of knowledge is therefore of immense importance. In this context, it is commendable that GH Raisoni College of Engineering and GH Raisoni Institute of Engineering and Technology from Nagpur have come together to organize an international conference on ‘Advances in Mechanical Engineering – 2022’ in online mode from May 27 to May 28, 2022. Support from management of these two institutes to organize the conference is appreciable and visionary. Mechanical Engineering is a very important and integral branch of engineering which assist in many ways to contribute to growth of many industrial sectors such as automobile, aerospace, space, sports, maritime and defense. This conference aims to address many topics of current relevance related to mechanical engineering. It is certain that this conference will provide a much needed platform to exchange knowledge between well known researchers from different parts of world to make further progress in science and technology. I wish the organizers all the best for a very successful conference and hope that the conference proceedings (IOP Conference series: Material Science and Engineering Journal) will immensely help as an archival book for many years to come.
Dr. Manoj Gupta Associate Professor, Materials, Department of Mechanical Engineering, College of Design and Engineering, National University of Singapore, Singapore
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Message from Chief Guest
Dear Mr. Chairman of Raisoni Group of Institutions, Mr. Sunil Raisoni, Director G.H Raisoni College of Engineering, Dr. Sachin Untawale, Director G.H Raisoni Institute of Engineering & Technology Nagpur, Dr. Vivek Kapur, all eminent speakers, academicians, faculty members, scientists and dear students, a very good evening and I welcome you all at the International Conference on “Advances in Mechanical Engineering”. I cannot tell you how happy and privileged I am, to be part of this important scientific event hosted jointly by Department of Mechanical Engineering, G H Raisoni Institute of Engineering & Technology, together with G H Raisoni College of Engineering, Nagpur. Mahatma Gandhi once said, don't underestimate the little things that can make a big difference. A small act of kindness may not seem a lot from your perspective, but it can make someone's day. Ganghi Ji said, ‘In a gentle way, you can shake the world', but the way in which we happily continue to, I’ll say abuse the environment, continue with her wasteful and use &throw hobbit, I think a good knock is, what is need of the hour and who better than our academician, scientists, corporate leaders and students together, to give that hard knock, especially to the younger generation and the government and people who represent us. I am very happy that G H Raisoni Institute of Engineering & Technology which has multidisciplinary thoughts has decided to host this important scientific event. I have been informed that presentations of very high calibre co vering various topics of interest relevant to Design Engineering, Thermal Engineering, Materials and Industrial/Production Engineering, will be presented at the conference. Needless to say that in depth and very pertinent observations made by the speakers, research and novel views and interactions they will share with the participants over next couple of days, will surely help the organizers, in presenting a document or white paper with some recommendations on the topic, in question, to the government. I extend a very warm welcome to each one of you again and I do hope that Chairman, Mr. Sunil Raisoni, who has been the driving force and brain behind establishing this important technological institution at Nagpur, will continue to engage and guide the faculty, ensuring that this prestigious institution promotes the multidisciplinary study which is so important for the sustainable development in developed nations as well as emerging and under developed nations. I also take this opportunity to congratulate the honorary chairs Dr. Untawale and Dr. Kapur, General chair, Dr. Bhaiswar, organising chair, Dr. Walke, Dr. Jaju, students as well as faculty and administration staff, directly or indirectly involved with the event, who have worked hard to make this conference happen. Dear students, opportunities like this comes rare so please make most of it and let this inspire you to work towards better future for your generation and generation to follow. Thanks for inviting me and giving me an opportunity to participate at this important international conference. Wishing you all yet more success and life filled with never-ending prosperity .
Dr. Vinod kumar Sharma Senior Scientist, ENEA Research Centre, Trisaia, ITALY
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Message from Guest of Honor
Good morning to the Chief Guest of the conference, Dr. Manoj Gupta from the National University of Singapore, Patron Shri. Sunil Raisoni, Honorary Chair Dr. Sachin Untawale, conference organizing chairs, convenors, session chairs, coordinators, and participants. Today, we have gathered here to be part of this exciting International Conference on “Advances in Mechanical Engineering-2022” (ICAME-2022). I am highly honoured and feel privileged to have the opportunity to address such a talented gathering of academicians, researchers, and students. I would like to thank the conference organizing team for inviting me as the guest of honour in ICAME-2022. I would also like to congratulate the organizing team for their hard work and dedication to bringing this conference into reality. Thankfully, with today’s online technologies, intellectual discourse and knowledge sharing events such as national and international conferences and seminars can continue, or rather I would say these events should continue despite the challenges brought on by the global pandemic. The topics of this conference have been justifiably selected to cover different aspects of Mechanical Engineering, such as Design Engineering, Materials Engineering, Thermal Engineering and Production/Industrial Engineering. In recent decades, the rapid techno-industrial growth and associated issues of the engineering industries call for active participation and collaboration between academics, researchers, and industry experts to develop and discuss new finding s, innovations and challenges in various research fields. I believe this conference on Advances in Mechanical Engineering-2022 will provide a good sharing platform for collaboration to discuss new findings and challenges in modern-day research and unleash numerous future research scopes and challenges in different aspects of Mechanical Engineering. Thank you so much, and may you have a fantastic two-day conference ahead!
Dr. Sukanta Roy Head of Department | Mechanical Engineering Faculty of Engineering and Science Curtin University, Malaysia
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Organizing Committee PATRONS Shri Sunilji Raisoni Smt. Shobhaji Raisoni HONORARY CHAIR Dr. Sachin Untawale Dr. Vivek Kapur CONVENER Dr. Rupesh Shelke Prof. Tejpal Parshiwanikar
GENERAL CHAIR Dr. Vinod Bhaiswar Dr. Dheeraj Deshmukh Dr. Arvind Mahalle Dr. Achal Shahare
ORGANIZING CHAIR Dr. Pramod Walke Dr. Santosh Jaju Dr. Manish Gupta
PROGRAM CHAIR Dr. Abhay Khalatkar Dr. Ashish Raut Prof. Pratishtha Sharma
PUBLICATION CHAIR Prof. Amol Pitale Dr. Sangharatna Ramteke Prof. Seema Rewatkar
FINANCE CHAIR Dr. Vivek Khond Dr. Anand Babu Kotta Prof. Pratik Dhage
REGISTRATION CHAIR Prof. Rahul Jibhakate Prof. Vednath Kalbande Prof. Nilesh Kanojiya
TECHNICAL CHAIR Dr. Inayat Ullah Dr. Abdul Rehman Khan Prof. Yogesh Nandanwar Prof. Ritesh Sambare
ADVISORY COMMITTEE Dr. Manoj Gupta, National University Singapore, Dr. Sukanta Roy, Curtin University Malaysia, Dr. Shuva Ghosh, Bangadesh Univeristy of Engineering & Technology, Bangladesh, Dr. Krunal Girase, Tokushima Univeristy, Japan, Dr. Sanjay Chintakindi, King Saud Univeristy, Saudi Arabia, Dr. Fatih M. Botsali, Konya Technical Univeristy, Turkey, Dr. Milind Atrey, IIT, Bombay, India, Dr. Devendra Deshmukh, IIT, Indore, India, Dr. Manoj Soni, BITS, Pilani, India, Dr. V. K. Gupta, IIITDM, Jabalpur, India, Dr. V. M. Phalle, VJTI, Mumbai, India, Dr. Puneet Tandon, IIITDM, Jabalpur, India, Dr. N. P. Gulhane, VJTI, Mumbai, India, Dr. S. H. Gawande, M.E.S. CoE., Pune, India.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Conference Schedule Day 01: 27 May 2022 WebEx Login and Online Registration
09:30-10:00 am
Inauguration Dr. Manoj Gupta, National University of Singapore (Chief Guest) Dr. Sukanta Roy, Curtin University, Malaysia (Guest of Honor) Patrons: Shri. Sunil Raisoni Honorary Chair: Dr. Sachin Untawale Honorary Chair: Dr. Vivek Kapur
10:00-10:30 am Webex Link:
https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=e39c7f461 d029cd7c7ed2a63853900ad9
Keynote Session by: Dr. Manoj Gupta, NUS Singapore Topic: - "Sustainable Magnesium & Magnesium Technology for Engineering and Biomedical Science" 10:30-11:30 am
Webex Link:
https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=e39c7f46 1d029cd7c7ed2a63853900ad9
Plenary Session by Dr. Sukanta Roy, Curtin University, Malaysia Topic: “Computational Analysis of Savonious turbines for exhaust air energy extraction”. 11:30-12:30 pm
12:30-02:00 pm
Webex Link:
Technical Session –I: (Production/Industrial) : (Room 01) Paper ID: 24,29,61,69,95,101,103,106 Session Chair 1 [Ext]: Dr. M.D. Abid Ali Session Chair 2 [Int]: Dr. Anand Babu Kotta Webex https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=e7ac9 Link: ff568e3cad55b5692f0fdaeb0823 LUNCH BREAK
02:00-02:30 pm
02:30-03:30 pm
https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=e39c7f46 1d029cd7c7ed2a63853900ad9
Technical session –II: (Design) Continuation of Technical Session 1: (Room No 2) Production/ Industrial Paper ID: 09,10,19,47,48,53,65,66 Technical Session –I: Session Chair 1 [Ext]: Dr. B.R. (Production/Industrial) : (Room 01) Mahajan Paper ID: 110,112,118,120,122,129,132,137 Session Chair 2 [Int]: Dr. N.P. Session Chair 1 [Ext]: Dr. Sachin Balsara Awate Session Chair 2 [Int]: Dr. Manish Gupta Webex Link: Webex Link : https://ghraisoni.webex.com/ghrais https://ghraisoni.webex.com/ghraisoni/onstage oni/onstage/g.php?MTID=ef4741f /g.php?MTID=e7ac9ff568e3cad55b5692f0fda 50be949b0a951f26dceb2849b6 eb0823
03:30-03:45 pm
TEA BREAK
03:45-5:30 pm
Continuation of Technical session –II: (Design) (Room No 2) Paper ID: 71,100,109,115,119,127,136 Session Chair 1 [Ext]: Dr. Vishal Shukla Session Chair 2 [Int]: & Dr.Jay Govind Verma Webex Link:
https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=ef47 41f50be949b0a951f26dceb2849b6
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Day 2: 28 May 2022 Technical session–III: (Thermal ) (Room 1) Paper ID: 23,51,52,76,82,86 09:30-11:30 am Webex Link:
11:30-12:30 pm
Plenary Talk Guest Speaker: Dr. Vinod Kumar Sharma, Senior Scientist, ENEA Research Centre, Trisaia, ITALY Topic: “Use of Renewable Energy Technologies to achieve sustainable Development in future”. Webex Link:
12:30-01:00 pm
01:00-03:00 pm
03:00-03:15 pm
03:15-04:30 pm
Session Chair 1 [Ext]: Dr. Yogesh Dhote Session Chair 2 [Int]: Dr. V. W. Khond https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=ed47 5b1cec7adc8a3a2d81287eda77f08
https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=ed47 5b1cec7adc8a3a2d81287eda77f08
LUNCH BREAK Continuation of Technical session–III: Technical session–IV: (Materials) (Thermal) (Room 1) (Room 2) Paper ID: 88,97,99,108,111,125 Paper ID: 33,58,60,68,75, Session Chair 1 [Ext]: Dr. Manish Session Chair 1 [Ext]: Dr. Mayank Deshmukh Agrawal Session Chair 2 [Internal]: Prof. Ritesh Session Chair 2 [Int]: Dr. Sourabh Sambare Shukla Webex Link: Webex Link: https://ghraisoni.webex.com/ghraisoni/o https://ghraisoni.webex.com/ghraisoni/on nstage/g.php?MTID=e4845687e7de6a1 stage/g.php?MTID=ed475b1cec7adc8a3a 569d3f485dfa0a6491 2d81287eda77f08 Tea Break Continuation of Technical session- IV: (Materials) (Room 2) Paper ID: 79,96,113,116, 117 Session Chair 1 [Ext]: Dr. Dr.Pranav Charkha Session Chair 2 [Internal]: Dr.Sangharatna Ramteke Webex https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=e484 Link: 5687e7de6a1569d3f485dfa0a6491 Valedictory Function Dr. Vinod Kumar Sharma, Chief Guest of Valedictory Function (Senior Scientist, ENEA Research Centre, Trisaia, ITALY) Patrons: Shri. Sunilji Raisoni Honorary Chair: Dr. Sachin Untawale Honorary Chair: Dr. Vivek Kapur
04:30- 05:00 pm
Webex Link:
https://ghraisoni.webex.com/ghraisoni/onstage/g.php?MTID=eda8 00b427dc8a7c664f76c3c48804150
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Technical Sessions Session: 1 PRODUCTION & INDUSTRIAL Paper ID ICAME 24
Title Review on study of design optimization for additive manufacturing of various mechanical/machine components
Author
Email: id
Pallavi Upare, Abhay Kalatkar, R.Shelke
[email protected]
ICAME 29
Automated sanitizing machine for recording thermal detection and hygiene application
Prashant Kamble, Ketan Fulzele, Nikhil Shahare, Ritik Rane, Shilpa Sahare, Yashika Gaidhani
[email protected], [email protected], [email protected], [email protected],mrssp [email protected], [email protected] m
ICAME 49
Implementation of AHP to evaluate variables of prognosis agent technology managing manufacturing organizations
Vikram Singh, Somesh Kumar Sharma
[email protected] , [email protected]
ICAME 61
Experimentation and Optimization of Milling Machine Parameters Using Taguchi Method
Amol Vikas Joshi, Pranav Charkha, Devanand R. Tayade, Avinash Panchal
[email protected], [email protected], [email protected], [email protected]
P R Kulkarni, T S Pathak, S B Tuljapure
[email protected]
ICAME 69 ICAME 95 ICAME 101 ICAME 103
Application of Design for Manufacturing Technique to Lubricating Oil Pump Body for Reduction of Its Machining Time Maintenance scheduling under multiple resource constraints using a project scheduling technique Research Progress in Life Cycle Assessment for Sustainable Manufacturing Industries: A bibliometric analysis An Analytical Study of Human Resource Management Practices in Industry 5.0
ICAME 122
[email protected] [email protected] [email protected]
Dr Shailesh Kediya, Sanjiv Kumar, Dr Dileep Singh and Janmejay Shukla
Welding Joint Defects Detection using Artificial Neural Network and Support Vector Machine
Swapnil Gundewar, Prasad Kane, Santosh Behara, Uttam Kumar
An investigation of the factors affecting flexible manufacturing competence of organizations
ICAME 120
Shailesh Kediya, Shivani Ganer and Anup Suchak
Value addition in IoT-Enabled Business Ecosystems with Material Intelligence
ICAME 110
ICAME 118
[email protected]
An application of quality tools to improve the tyre remanufacturing process Performance Investigation Of Cylinderical Cavity Receiver Using Roughened Surfaces
ICAME 106
[email protected]
Alok Yadav, Rajeev Agrawal, Rajiv Kumar Garg, Anish Kumar Sachdeva
Viplav Barai, Vismay Dhanalkotwar Yatharth Nagmote, Suyash Shende, Dheeraj Deshmukh, Sangharatna M. Ramteke Asmit Karadbhajane, Jeevan Gaidhane, Inayat Ullah, Sourabh Shukla, Anand Babu Kotta Jeevan Gaidhane, Abhay Khalatkar, Inayat Ullah, Asmit Karadbhajane Kamuju Naveen Kumar, Akanksha Maurya, Deepak Sharma
Bearing fault diagnosis using signal processing and machine learning techniques: A review
ICAME 112
Amol Chaudhary and Sachin Meshram
sangharatna.ramteke@raisoni. net
[email protected]
[email protected] [email protected] [email protected] [email protected] [email protected] janmejay.shukla@raisoni. net [email protected] om,[email protected] ,[email protected] om, [email protected]
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur ICAME 129 ICAME 132 ICAME 137
Enhancement in the teeth cutting operation on gear hobbing machine Experimental investigation and optimization of WEDM process for AISI 420 stainless steel Productivity enhancement by using VSM tools in farm equipment manufacturing company
Gaurav Bore, Vinod Bhaiswar, Rupesh Shelke, Navin Verma Mukulanand Jha, Rajiv Kumar Garg, Shekhar Shrivastava Hemant Khubalkar, Rahul A Jibhakate1, PV Walke , Rajendra Kadu
[email protected] [email protected] [email protected]
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
ABSTRACT PRODUCTION & INDUSTRIAL ICAME 24 AUTHORS ABSTRACT
ICAME 29 AUTHORS ABSTRACT
ICAME 49 AUTHORS ABSTRACT
ICAME 61 AUTHORS
Review on study of design optimization for additive manufacturing of various mechanical/machine components Pallavi Upare, Abhay Kalatkar, R.Shelke In this paper we are going to know about various researchers who had done various projects on design optimization and then further they manufactured them by additive manufacturing machine which we need while performing our project. Lightweight design provides many advantages in the product development process, such as reduced material consumption, process reduction, and energy usage. This review article explains the ideas of design optimization, topology optimization, and additive manufacturing and how they may be applied to any machine or automobile component. The study of numerical optimization techniques used to the design of various components in which size, form, and structure optimization may be done is known as design optimization. Optimization of Topology is a structural optimization. It optimises the material distribution in a design part or product. Additive manufacturing often called as 3Dimensional printing, a technique which involves layering of materials & creates a 3D component. During the creation of a product, these principles are critical in determining the best size, form, and topology. Automated sanitizing machine for recording thermal detection and hygiene application Prashant Kamble, Ketan Fulzele, Nikhil Shahare, Ritik Rane, Shilpa Sahare, Yashika Gaidhani A multipurpose automatic disinfection booth is an automated, non-contact, alcoholbased disinfection station, which finds its use in hospitals, work, premises, offices, schools, and other relevant places. It serves multiple purposes of sanitizing not only the human body but all of the components they are carrying. by using UV lights, it sanitizes the whole object or accessories carried by a person. Along with this functioning, it also provides a fully automated hand sanitizing mechanism which is followed by temperature detection of the person entering the machine, and it is loaded with smart sensors to take appropriate decisions. It has a security mechanism in form of a barricade to restrict the potentially unwanted person from entering. Also, it stores data of the person in form of an image for security purposes along with providing free energy. Implementation of AHP to evaluate variables of prognosis agent technology managing manufacturing organizations Vikram Singh, Somesh Kumar Sharma This research aims to use AHP model to evaluate variables of PAT managing manufacturing organizations. Using AHP approach, an evaluation model can be constructed, capable to measure the weight and ranking of variables. Literature helps to identify twenty six variables of PAT. These variables are arranged on the basis of expert’s opinion and construct a conceptual domain in which variable are divided as five major and twenty one sub variables. This domain is used to draw hierarchy framework of AHP model. Thereafter, pair wise comparison is performed on the expert’s responses to measure weight of PAT variables, the responses and matrices, validated by computing consistency ratio. Finally, weight and ranking of entire variables are evaluated in AHP methodology section and concluded in last section which gives interesting suggestions to the manufacturing organizations so as to manage their manufacturing system. Experimentation and Optimization of Milling Machine Parameters Using Taguchi Method Amol Vikas Joshi, Pranav Charkha, Devanand R. Tayade, Avinash Panchal
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
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In this research work, the problem is to reduce the surface roughness of the Jacquard body which is a casting part to optimize the effects of different process parameters of surface roughness & to reduce surface roughness for milling operation by using the Taguchi method. Milling is better than other machines in the surface finish and accuracy. Greater quality product and higher productivity is the main vision of every entrepreneur. To achieve this, the process parameters of each process need to be optimized. In a milling machine, some of the important parameters like feed rate, depth of cut, speed, etc, play an important role in achieving the required quality product. To optimize these parameters, the most suitable and widely used method is the Taguchi method. The most significant objective of this research is to obtain effective quality parameters. Experimentation is done on the Jacquard body by varying the milling machine parameters. The experimental results indicate that the minimum surface roughness is obtained for the process parameters feed 0.7 mm per revolution, speed 225 rpm and 1.5 mm depth of cut. This study recommended that more surface finish be obtained by increasing speed, low feed rate, and depth of cut. Application of Design for Manufacturing Technique to Lubricating Oil Pump Body for Reduction of Its Machining Time P R Kulkarni, T S Pathak, S B Tuljapure Design, manufacturing (production) & quality are linked to each other. Design has large impact on manufacturing ease & time along with the quality of product. Hence design need to be modified taking into consideration the manufacturing aspect. In this work, a lubricating oil pump body is studied from manufacturing point of view. The operations requiring more processing time were identified. An effort is made to change the design of the lubricating oil pump body to reduce the manufacturing time & efforts. Use of finite element method-based software ANSYS is done to determine the stresses during the machining with reference to the present design. The lubricating oil pump body is redesigned from manufacturing point of view keeping the end product as it is, to avoid the modifications of the other components in assembly. The machining parameters are predicted for this new design. At last, comparison of the machining parameters for existing & proposed design is done. There seems to be overall improvement in processing time. Maintenance scheduling under multiple resource constraints using a project scheduling technique Amol Chaudhary and Sachin Meshram The work presented in this paper deals with the scheduling problem under multiple resource constraints.A heuristic method called the current float technique of resources scheduling under multiple resource constraints is applied to solve this problem.The maintainance activities of some machines of coal handling plant of a thermal power station is considered.The activities are arranged in network diagram and a schedule is developed which will give the information of current status of activities,utilization of resources and idle resources. Research Progress in Life Cycle Assessment for Sustainable Manufacturing Industries: A bibliometric analysis Alok Yadav, Rajeev Agrawal, Rajiv Kumar Garg, Anish Kumar Sachdeva Many tools for analysing the sustainability of manufacturing industries, such as life cycle assessment (LCA), have been created as the debate over sustainable manufacturing has grown. In present study a bibliometric analysis is conducted for scientific paper in Scopus databases in the subject of LCA, with a focus on studies related to manufacturing industries from a sustainable point of view. This study compiled a portfolio of papers on LCA based sustainable manufacturing industries. In present study a total of 133 publications are found from Scopus database between the periods when LCA added in ISO series (1997) to 2020. The study was carried out using R studio and the Bibliometrix R package. The main data for present study is collected from the database of Scopus of in BibTex format, after that which is analyse
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
in R studio for exploration using the command. The annual scientific production of Life cycle Sustainability Assessment papers is discovered, with a 13.39 % increase rate in article publication. According to the findings, developed countries produced the most publications, as compare to developing nations. When comparing number of publications, India ranks fourth. The bulk of papers, according to the thematic analysis, tried to examine manufacturing industries' environmental implications. However, other publications have combined LCA with additional methodologies to provide a more comprehensive analysis that considers the social and economic pillars of sustainable manufacturing The study also emphasises the importance of LCA in manufacturing process decision-making. There are numerous novel contributions, such as categorising published data using scientific indexes and bibliometrics, describing the main research approaches, and highlighting future research opportunities to provide academics and practitioners with an overview of LCA implementation in the field of sustainable Manufacturing industries. ICAME 103 AUTHORS ABSTRACT
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An Analytical Study of Human Resource Management Practices in Industry 5.0 Shailesh Kediya, Shivani Ganer and Anup Suchak Industry 5.0 is the new revolution in which transition is going on right now from industry 4.0. While industry 4.0 consisted of technological developments in the fields of data analytics, cyber physical systems and huge exposure to Artificial Intelligence, Machine Learning, IoT etc., Industry 5.0 is all about mass customisation or personalization of these existing technologies. While the world is going through this transition the current Human Resource Management of the organizations also has to go through this transition. The present research analyses certain factors affecting the HRM practices during this process. The authors also try to propose certain possible and suitable suggestions for the smooth processing of the transition. Bearing fault diagnosis using signal processing and machine learning techniques: A review Viplav Barai, Vismay Dhanalkotwar Yatharth Nagmote, Suyash Shende, Dheeraj Deshmukh, Sangharatna M. Ramteke In the majority of machines, bearings are among the most crucial components. Bearings are so important that they have been the subject of intensive research and ongoing development throughout the years. Often, bearing fails to reach its expected service life, resulting in failures that cause economic losses. Therefore, there has been a growing interest in research on bearing failure diagnosis systems due to the availability of condition monitoring techniques. Fault feature extraction techniques with the application of signal processing methods and machine learning techniques introduce an Intelligent Fault Diagnosis system that can identify and diagnose the bearing faults. Many researchers have been interested in such techniques in recent decades, which use artificial intelligence to diagnose machine health conditions. In this article, the authors have explored certain fault diagnosis methodologies based on signal processing and machine learning. From the discussed literature review, a research gap for future work has been defined. An investigation of the factors affecting flexible manufacturing competence of organizations Asmit Karadbhajane, Jeevan Gaidhane, Inayat Ullah, Sourabh Shukla, Anand Babu Kotta Owing to the fluctuating demands of customers and intensified competition, organizations are searching ways to enhance their flexible manufacturing competence (FMC) as it has been recognized as one of the most important approaches to handle the aforementioned situations. The existing literature provides several factors that significantly affect FMC, however, the interrelationships among these factors are somewhat unexplored. The insights to the interactions among these factors could provide crucial managerial implications that could pave ways for success of organizations in today’s uncertain business environment. To this end, the present
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
work makes an effort and highlights the important factors and investigates their interactions with each other for the enhancement of FMC of organizations. In this paper, the interpretive structural modelling (ISM) methodology has been implemented to explore the interactions and develop a structural model depicting the hierarchy of the factors. Further, MICMAC analysis has been used to categorize the factors into different groups based on their driving and dependence powers. ICAME 112 AUTHORS ABSTRACT
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An application of quality tools to improve the tyre remanufacturing process Jeevan Gaidhane, Abhay Khalatkar, Inayat Ullah, Asmit Karadbhajane The tyre remanufacturing industries are facing quality and performance issues of the remanufactured tyres as they have developed their own tyre retreading methods due to the lack of standardized retreading process guidelines. This study focuses on identifying the challenges of the tyre remanufacturing process, highlighting various defects in retread tyres and their causes so that the challenges could be mitigated and the quality and performance of the tyres could be improved. To achieve the objectives of the study, the quality tools including fishbone diagram and Pareto chart has been used. For the above analysis, the data has been collected through multiple field visits and semi-structured interviews. The findings of the study indicate that organizations can improve the utilization of worn-out tyres by identifying tyre retreading defects and their causes and by implementing corrective actions at different stages in the tyre remanufacturing. According to cause-and-effect analysis, the defects found are failure of tread due to lack of standard tread joint method, side bulge generation due to sidewall degrading, and failure of the buffer layer due to tread and sidewall crack. Besides, a few recommendations are made for tyre remanufacturing to increase productivity and minimize the defects generation in retreaded tyres. Performance Investigation of Cylinderical Cavity Receiver using Roughened Surfaces Kamuju Naveen Kumar, Akanksha Maurya, Deepak Sharma Solar cavity receiver is an integral part of the solar parabolic dish collectors used for absorbing concentrated solar irradiation. The performance of the receivers can be enhanced utilizing different types of heat transfer fluids (HTF) and modified geometries. The thermal performance of a redesigned cavity receiver with solid semicircular tube attached to its surface was investigated using CFD three-dimensional simulation. The influence of operating and geometric parameters (i.e., inlet mass flow rate and inlet temperature) were investigated. The results obtained shows that, redesigned solar cavity receiver has thermal efficiency of 8.49- 10.27% higher than a normal cavity receiver with an inlet flow rate of 0.01-0.04 kg/s under the same environmental and operating conditions. The temperature of outlet of HTF increases with increases in inlet temperature for Therminol66 oil. The comparison of thermal performance using different HTF (i.e., Therminol66, Ethylene Glycol, Water) is also conducted and it is found that Therminol66 oil gives 9% and 17% higher outlet temperature than ethylene glycol and water respectively at intake flow rate of 0.02 kg/s Value addition in IoT-Enabled Business Ecosystems with Material Intelligence Dr Shailesh Kediya, Sanjiv Kumar, Dr Dileep Singh and Janmejay Shukla Findings of this study will lead to the discovery of a renewed business model based primarily on the Internet of Things (IoT). Further investigation is needed into the impact of material intelligence on large-scale service ecosystem business models. The findings of the study are depending on 43 qualitative based interviews with 17 organizations of the sector. Data were re-examined for this research project. IoTbased business ecosystems may benefit from the usage of material intelligence in the steel industry. For collaborative value development among business ecosystem members, “data about "things" connected to the Internet of Things (IoT) need not be intelligent”. Internet of Devices installations enable organizations to benefit from the speed and variety in data connected to things, and the paper recommends future
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
research into IoT-enabled business models. A new analysis offers new strategies to gain competitive advantages in the growing IoT ecosystems, rather than focusing on enhancing supply network efficiency. By identifying and exploring essential features of how the Internet of Things might transform the renewed business models and supply networks in an ecosystems, the study adds to the grow ing corpus of research on IoT. ICAME 122 AUTHORS ABSTRACT
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Welding Joint Defects Detection using Artificial Neural Network and Support Vector Machine Swapnil Gundewar, Prasad Kane, Santosh Behara, Uttam Kumar Welding is an important operation in manufacturing that finds wide applications while joining components. Many destructive and non-destructive techniques are applied to ensure the quality of welded joints. In this paper, an attempt is made to apply the vibration-based technique along with the Artificial Neural Network (ANN) and Support Vector Machine (SVM) to classify the defects of welded joints. Features datasets extracted from the acquired vibration signals during experimentation on the test’s samples fabricated with and without defects are applied to pattern recognition techniques for fault identification. The accuracy of detection of defects using ANN is found to be 90.1% while for SVM it is found to be 92.85% for test datasets. The accuracy of classification obtained for the detection and classification of defects is found to be encouraging demonstrating the suitability of the proposed vibration-based approach to the development of a decision support system for non-destructive testing for defect identification. Enhancement in the teeth cutting operation on gear hobbing machine Gaurav Bore, Vinod Bhaiswar, Rupesh Shelke, Navin Verma Gear is mechanical component mounted on the shaft to transmit the power from one shaft to another. Gear is mostly manufactured by using the hobbing process. In hobbing process the tooth are cut on the gear blank with the help of the indexed hobs. The hobbing process the gear blank and the hob are rotated with each other simultaneously with certain speed. The rotating movement of the hob and the blank creates the cuts and forms the tooth on the gear blank. In the process of the gear hobbing the rotating speed of the hob and rotating speed of the gear blank plays an important role in teeth cutting operation and the formation of the teeth on the gear blank. The rotating speed of the hob also determines the tool life of the hob. As the hob rotates with high speed the wear occurs in the hob due to variation of the cutting force with respect to the cutting speed. This paper w ill conclude how the variation of the cutting speed of the hob and gear blank affects the cutting of tooth on the gear blank. Experimental investigation and optimization of WEDM process for AISI 420 stainless steel Mukulanand Jha, Rajiv Kumar Garg, Shekhar Shrivastava AISI 420 Stainless steel is martensitic steel having sufficient corrosive resistance and outstanding hardness used for making knife blades, shear blades, hand tools, and surgical instruments for the medical industry. For the machining of this kind of highstrength material, WEDM is a popular advanced machining technique for creating items with complex forms and profiles. WEDM of AISI420 stainless steel is accomplished utilizing Zn coated copper wire as an electrode in this study. Machine input control parameters include pulse on time (Ton), pulse off time (Toff), peak current (Ip), and wire feed rate (Wf), whereas measured output response parameters include material removal rate (MRR), Kerf width (KW), and surface roughness (SR). Experiments were constructed using Taguchi L16 orthogonal arrays, and control parameters were optimized using Taguchi-based grey relational analysis (TGRA). Parametric analyses are done for multi-response optimization by obtaining grey relational grade (GRG). It has been found from the ANOVA table that Ton, Toff, Ip, and Wf are having % contributions of 85.67%, 4.38%, 8.47%, and 0.26%
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
respectively. The optimal level of input parameters obtained by Taguchi-based GRA is Ton 125µs, Toff 40µs, Ip 220A, and Wf 8m/min. To validate the results confirmation tests are performed on optimal input parameters. ICAME 137 AUTHORS ABSTRACT
Productivity enhancement by using VSM tools in farm equipment manufacturing company Hemant Khubalkar, Rahul A Jibhakate1, PV Walke , Rajendra Kadu Lean manufacturing improves product quality and productivity, minimizes takt time, manufacturing waste, inventory and eradicates NVA activities. company victimization the quality methodology and it's featured the heaps of disadvantage in terms of high takt times, in correct line levelling, high transportation, and material handling, etc. the foremost objective of this analysis is to increase the productivity by victimization lean tools like, scrutiny, work standardization through time and timeand-motion study, and line levelling to attenuate the wastages that's found in company, and it helps to company to increase market demand. among the investigation, high work-in-process, poor line leveling, high cycle time and production interval, unbalance work distribution/assignment, among the corporate area unit ascertained. once implementation of some lean tools, cycle time is reduced to twenty initial, cycle time is balanced with takt time, 12.3 min. being the standard cycle time of product, production takt time decreases by eighteen whereas production can increase by thirty third. Some new manufacturing processes area unit typically applied to urge improved product quality and involving further workers to spic e up manufacturing processes, the merchandise of company. The profit of the company is in addition enlarged to spice up the quality product and minimum delivery time, and shopper satisfaction has in addition been considered in addition. selection and peerreview to a lower place responsibility of the scientific committee of the International Conference on Newer Trends and Innovation in discipline.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur Session : 2
DESIGN Paper ID
Title
Author
Email: id
ICAME 9
Optimization and fabrication of Load carrying device design using ANSYS DO Module
Ansh Gangwar, Sambhrant Srivastava, Adesh Kumar, Md Umar
sambhrantsrivastava4@gmail. com
ICAME 10
Application of Drone Systems for Spraying Pesticides in Advanced Agriculture: A Review
Ganesh Borikar, Chaitanya Gharat, Sachin Deshmukh
[email protected] n,[email protected] om,sachin.deshmukh@mitwp u.edu.in
ICAME 19
Effects of processes parameters on spring back, wrinkles and cracks in different flanging processes: A Review
Surendra Kumara , J.P. shakyab , Pradeep Singhb,
[email protected]
ICAME 47
Analysis of CNC Turning Process of AA6082-T6 using ANSYS Software
ICAME 48 ICAME 53
Structural and Modal Analysis of Gas Turbine Blade Using ANSYS CAD/CAM Engineering And Artificial Intelligence In Dentistry
ICAME 65
Design, Development and Testing of Battery Electric Vehicle Sprayer
ICAME 66
Design and Development of Process Equipment for Extraction of Coconut Shell's Activated Carbon, Bio Oil and Syngas
Tejpal C Parshiwanikar, Chandrahas C Handa
[email protected]
ICAME 71
Design and Development of Pneumatic Sheet Metal Cutting Machine
J.Om Prasaad, Krishnan A.B., Parth Lokhande, Biradar Mustaffa
[email protected], [email protected], [email protected], [email protected]
ICAME 100
Weight optimization and finite element analysis of automobile leaf spring: A design construction referred to electric vehicle
Shad Mohammad Shohel, Shaptarshi Sen Gupta, Sabbir Hossain Riyad
[email protected]
Dewansh Bhajane, Mukul Sambrey, Priyank Shukla, Lokesh Chandravanshi, Sangharatna M. Ramteke, Dheeraj Deshmukh
[email protected] aisoni.net,sambrey_mukul.me @ghrce.raisoni.net,shukla_pri [email protected],ch andravanshi_lokesh.me@ghrc e.raisoni.net,sangharatna.ramt [email protected],dheeraj.desh [email protected]
ICAME 109
Design and Development of Portable Manure Spreading Trolley for farmland
ICAME 115
Design analysis and weight optimization of top beam-up packing 15 BPH bell press machine
ICAME 119
Exploration of the factors affecting the performance of the ceiling fan: A brief review
ICAME 127
Development of Coil Spring Suspension System with Air Bellows
ICAME 136
Design and Analysis of tool for fractured abutment screw removal from the dental implant body
Mohd Aseerullah, Chandra Bhushan, Ravi Vishwakarma Hrushikesh Paricharak, S. K.Tiwari Vyankatesh Naidu,Santosh Jaju D.S. Karale , Ankita Shinde , N. P. Awate , S. H. Thakare
Bhagyashri Kandalkar, Vinod Bhaiswar, V.M. Khond Rubal Wandre, Faizan Ahmad Gaddi, Vaibhav Dongre, Sahaj Hasija, Inayat Ullah Abhijit Ratekkar, Sahil Gulhane, Suraj Meshram, Mahesh Borker , A.R.Khan , R.S. Shelke Swapnil Shedmake1,Nilesh Awate, Pramod Walke, Barkha Bhoneja
[email protected] [email protected] m, [email protected] naidu_vyankatesh.ghrcemtech [email protected] [email protected]
bhagyashri.kandalkar.mtechcc @ghrce.raisoni.net [email protected]
[email protected] t swapnilshedmake007@gmail. com
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
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DESIGN ICAME 9 AUTHORS ABSTRACT
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Optimization and fabrication of Load carrying device design using ANSYS DO Module Ansh Gangwar, Sambhrant Srivastava, Adesh Kumar, Md Umar Simulation technique is one of the advanced techniques in Finite Element Method. It is used as one of the tools for designing and analysis of any structure. Load carrying device is important for labors in construction works, cargo carrying etc. because the most efficient and cheap design can help them from hazardous and poisonous environment. Different load carrying device are available but their optimization regarding the load is still a challenge. In this work we have taken reference of female labors carrying load on their head like, bricks, cement, and concrete on construction sites. To achieve this, a parametric design is done in ANSYS software and optimize the shape and mass of load carrying device using DO module. Then using guadua bamboo a load carrying device is made and its weight is measured. Load carrying device suitability is checked by carrying bricks on the construction site. Application of Drone Systems for Spraying Pesticides in Advanced Agriculture: A Review Ganesh Borikar, Chaitanya Gharat The farmers in agriculture fields face health problems due to diseases caused by pesticides and insecticides. Thousands of cases result in adverse health effects when spraying pesticides manually onto crop fields. The use of drones for spraying pesticides is a promising alternative to manual spraying. It represents a major emerging field in India. Therefore, this article is an attempt to explore the latest technological advances and applications in Hardware, Flight Controller (FC) & Electronic Speed Controller (ESC), Smart Agricultural Sensors, and Spraying Systems. To make a mention, a few key advancements in drone systems are: The crops can be monitored by the use of a multispectral camera, mounted on a drone. The drone spraying system makes use of GPS coordinates to auto-navigate GPS coordinates to spray the pesticides on the infected areas in real-time as soon as the camera takes a picture of the spraying area. Different types of nozzles are applied to lead to specific sprinkling speeds and adaption of Bluetooth Low Energy (BLE) via smartphone. Auto control of the quantity of pesticide as per the speed of the drone and use of Artificial Intelligence (AI) for smart drone path control. Along with challenges in spraying technology, the possible direction of future research is highlighted. These technology upgrades lead to precision spraying, along with uniformity and less time. It could attract more and more farmers to spray pesticides by drone and increase crop yields in the coming years. Effects of processes parameters on spring back, wrinkles and cracks in different flanging processes: A Review Surendra Kumar, J.P. Shakya, Pradeep Singh, Flanging is an important type of sheet metal bending process. In present review, an effort was made to explore the contributions of various researchers to drawn out the cause of defects in the flanging process. Several parameters such as geometrical, material and process parameters affect the formability of the flanging process. In straight flanging process, spring back (due to elastic recovery) is a major problem that affects dimensional and geometrical accuracy of a bent component. Several factors are responsible for springback such as – profile radius of punch and die, bend angle, thickness of sheet, clearance between punch and die, blank-holder force, Young’s modulus, n-value, yield stress, plastic anisotropy of materials, velocity of punch etc. In shrink flanging process, wrinkling is the prime concern that occurs due to the excessive compressive stress in the flange portion. It is mostly affected by mechanical properties of material (R-value, n–value etc.), geometry of the tools and blank, process parameters. In stretch flanging process, the effect of material parameters is
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
found to be less as compared to geometrical parameters for crack initiation and thinning. ICAME 47 AUTHORS ABSTRACT
Analysis of CNC Turning Process of AA6082-T6 using ANSYS Software Mohd Aseerullah, Chandra Bhushan, Ravi Vishwakarma In this new technological world, CNC and manual turning operations engage in a significant role in different types of designing and manufacturing industries. Before initiating the manufacturing processes, analysis is a crucial part of the manufacturing process. This study involves modelling and analysis of the CNC machining process of a cylindrical AA6082-T6 workpiece with a Tungsten Carbide tip tool. A 3D model is first modelled on CATIA V5 and the analysis is then carried on in Ansys R19.2’s explicit module. The experimental and analytical results are carried out to justify the work. The cutting parameters used in CNC machining are Spindle rotational speed, feed rate, and depth of cut. The Normal Stress’s percentage error value varied too much compared to Shear stress and Shear Strain. This shows that the aluminium is suitable for the machining processes and can also be used more efficiently.
ICAME 48 AUTHORS ABSTRACT
Structural and Modal Analysis of Gas Turbine Blade Using ANSYS Hrushikesh Paricharak, S. K.Tiwari Gas turbine technology has advanced significantly during the last twenty years. The advancement in materials technology, new coatings, and novel cooling techniques are driving the expansion. Material selection is critical since turbomachinery design is complicated, and material performance is directly connected to efficiency. The materials should be able to withstand high vibrations, high temperature, and pressure. In this work, the maximum stress and the deformation induced due to pressure were determined to study the vibrational response, mode shapes, and natural frequencies. Four different materials have been considered, namely Inconel 617, Titanium alloy, Rhenium alloy, and Nimonic 80A. A suitable material for a gas turbine blade was suggested after analysing these materials. The 3D CAD model is modelled in CATIA V5 and analysis is carried out using FEM-based software ANSYS.
ICAME 53 AUTHORS ABSTRACT
CAD/CAM Engineering and Artificial Intelligence in Dentistry Vyankatesh Naidu and Santosh Jaju Artificial Intelligence is an instantly growing technology that has mesmerized the intellect of experimenters and researchers around the world. Since its commencement dentistry has glimpsed many incredible successes. As the fate of dentistry is adjoining the execution of AI applications, therefore, this condition needs each dentist to get educated and trained. The prelude of robotics to the healthcare sector has boosted the exactness and accurateness in a surgical procedure. However, the position of the dentist cannot be replaced by AI, but AI can be the tool for enhancing the process of dentistry.
ICAME 65 AUTHORS ABSTRACT
Design, Development and Testing of Battery Electric Vehicle Sprayer D.S. Karale, Ankita Shinde, N. P. Awate, S. H. Thakare To reduce the dependency on the fossil fuels a low -cost Battery Electric Vehicle (BEV) sprayer was developed in the present investigation which has a boom sprayer attachment and battery electric vehicle as a prime mover. The developed system has high uniformity of spray, the spray distribution along with the swath and easy to adjust height of boom over a target crop. The developed BEV sprayer was tested in the laboratory and on the experimental field for optimization of the operating parameters for green gram crop. It was observed that an electric motor of 1 kW, 48 V, BLDC capable to propelled the vehicle. The forward speed studied for optimization of spray nozzles were 2.0, 2.5, and 3.0 km/h and nozzles were tested at the operating pressures of 2.5, 3.0 and 3.5 kg/cm2 with orifice diameters of 0.6 mm, 0.8 mm, and 1.0 mm in the experimental field. The RSM results showed that the optimized performance of the sprayer with 0.8 mm orifice size nozzle on 3.0 kg/cm2 pressure and at a forward
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
speed of 2.5 km/h for the green gram crop. The field tests were carried out on the optimized parameters it was observed that the effective field capacity of the sprayer was 1.09 ha/h with field efficiency of 79.81 percent. ICAME 66 AUTHORS ABSTRACT
ICAME 71 AUTHORS ABSTRACT
ICAME 100 AUTHORS ABSTRACT
Design and Development of Process Equipment for Extraction of Coconut Shell's Activated Carbon, Bio Oil and Syngas Tejpal C Parshiwanikar, Chandrahas C Handa There has been an increasing demand for safe water which can be produced by conversion of agricultural waste to usable energy forms which has attracted many researchers to develop a system, because of chip & ready availability of stuff, increase in energy cost furthermore as greater pressure on the environment by the employment of fossil fuels. Thermal pyrolysis is one amongst the strategy which will be applied to effectively utilize agricultural wastes as source of energy production. Within the present work, the assorted process equipment’s are design and developed for extraction of activated carbon, bio oil and syngas from waste of coconut shells. During this process, the thermal pyrolysis i.e. carbonization and activation are performed. This paper attempts to confer the generalized design consideration for pyrolysis reactor, condenser & boiler. Design and Development of Pneumatic Sheet Metal Cutting Machine J.Om Prasaad, Krishnan A.B., Parth Lokhande, Biradar Mustaffa A Pneumatic sheet metal cutting machine, is a mechanism designed to cut metal sheets at a quick pace, based on the inputs given by the operator, using a switch. The machine consists of a cutter blade system, a double acting pneumatic cylinder held over the cutter blade system, an air compressor, a pneumatic valve to regulate the air flow to the pneumatic cylinder from the compressor, and a frame to hold the machine in position. Cutting and shearing technology used nowadays, includes laser cutting, hydraulic cutters, among others. These machines are costly, with expensive maintenance. Small and medium scale industries cannot tend to afford this technology. Currently basic sheet metal cutting operations are incorporated in such industries including basic handheld sheet cutters. This is not accurate in terms of the dimensions of the final output and poses safety hazards to the operator too. Thus, the novelty of this machine is that it provides an automated system to cut aluminium sheet metal, while making sure that the system is compact and portable, which has otherwise not been implemented in industries. Pneumatic sheet metal cutters find a tremendous scope in such industries owing to their simple and easy working, low cost and ensured safety with a good degree of dimensional accuracy. The main aim of this study is to research and innovate a safe and efficient way to cut aluminium sheets at a fast and regular pace, as compared to manual cutting, using a pneumatic system. Weight optimization and finite element analysis of automobile leaf spring: A design construction referred to electric vehicle Shad Mohammad Shohel, Shaptarshi Sen Gupta, Sabbir Hossain Riyad In the current era, an automobile vehicle company's major focus is now on conserving natural resources, reducing consumption of fuel, and reducing the weight of vehicle components. To reduce greenhouse gas emissions and fuel consumption and mitigate global warming, an electric vehicle will be a viable option. However, the EV’s main issue is the vehicle's battery longevity. More power is necessary to drive a vehicle. The best solution to the issue is to reduce the vehicle component weight. Electric Vehicle suspension systems are another sector in which these developments are performed on a regular basis. Substantial steps are being taken to improve the vehicle ride quality. In this study, static and dynamic analysis has been carried out by finite element analysis at Ansys workbench and taken structural steel material for mono leaf spring. In composite material, carbon fiber and glass fiber have been considered as reinforcement and resin epoxy has been taken as matrix for mono leaf spring. The composite material fabrication has been accomplished layer by layer at Ansys ACP. After analysis, this study has revealed that by using composite material a magnificent
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
amount of weight reduction has been achieved without sacrificing load-bearing capability, strength, and rigidity. ICAME 109 AUTHORS ABSTRACT
ICAME 115 AUTHORS ABSTRACT
Design and Development of Portable Manure Spreading Trolley for farmland Dewansh Bhajane, Mukul Sambrey, Priyank Shukla, Lokesh Chandravanshi, Sangharatna M. Ramteke, Dheeraj Deshmukh As per regular requirement for farming work farm-land preparation is done by spreading manure includes cow dung. In our country India, tractors or bullock carts are preferred to carry the manure from the compost place to the farm land and the manure/cow dung is stack piled in the field. Farming procedures with organic farming are broadly used and adoptable for many types of lands in several regions in India. Due to high increasing cost of labors, use of manpower for the purpose of organic materials are uneconomical. In this work, objectives are defined, design of mechanism, development of Portable Manure Spreading Trolley is done and illustrated in this paper. The developed machine is tested and shows satisfactory performance for the specified designed parameters. Design analysis and weight optimization of top beam-up packing 15 BPH bell press machine Bhagyashri Kandalkar, Vinod Bhaiswar, V.M. Khond In the Ginning industry, the process of removing seeds from the cotton fibres and after that seedless cotton is compress to make a lint bale is carried out. The pressing of seedless cotton is compress to make a lint bale. The pressing of seedless cotton is the last process at the ginnery. The cotton bailing press is taken under consideration, a product of Bajaj Steel Industry. It is important to modify the structure and check for suitability to improve the efficiency. Top beam modelling is done in solid edge. The static structural analysis is performed of top beam of bailing press in order to check the sustainability. ANSYS software was used to carried out the static structural analysis. The results obtained like maximum Von-mises stress and maximum deformation are used for improving design modification. Also adopting a technique of optimization it helps in provide a better outcome.
ICAME 119 AUTHORS ABSTRACT
Exploration of the factors affecting the performance of the ceiling fan: A brief review Rubal Wandre, Faizan Ahmad Gaddi, Vaibhav Dongre, Sahaj Hasija, Inayat Ullah Ceiling fans are one of the most common appliances that are used for commercial as well as domestic purposes. This paper provides a thorough review of the literature on ceiling fan design, aerodynamics, construction, and other features. The work intends to foster a fundamental understanding of the factors associated with ceiling fans such as the shape of the ceiling fan, investigation of the flow field of a ceiling fan, aerodynamics and structural analysis of ceiling fans for different blade materials, and noise reduction techniques. This paper will assist the researchers and manufacturers by providing the crucial information related to ceiling fan in a comprehensive manner so that future research could advance in appropriate direction.
ICAME 127
Development of Coil Spring Suspension System with Air Bellows Abhijit Ratekkar, Sahil Gulhane, Suraj Meshram, Mahesh Borker, A.R.Khan, R.S. Shelke Most of the mass production cars use only coil springs in their suspension systems. We have developed a combination of coil spring suspension with air bellows to reduce the vibrations of the vehicle in mass production cars. Our design proposes and successfully implemented the use of coil springs and the air bellows that will reduce the vehicle's vibrations and provide some amount of cushioning effect to the passengers and Driver. The coil spring is placed on the top of air bellows only in the rear suspension. And calculated the vibration using I Dynamics app.
AUTHORS ABSTRACT
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
ICAME 136 AUTHORS ABSTRACT
Design and Analysis of tool for fractured abutment screw removal from the dental implant body Swapnil Shedmake1, Dr. Nilesh Awate, Dr. Pramod Walke, Dr. Barkha Bhoneja Implant-based restoration is currently seen to be a more reliable option with higher success rates. Biological and technological problems, on the other hand, are common. An implant insertion complication well known to many is the loosening of the abutment screw. Fractures of the implant-abutment may cause the implant to fail to function efficiently as they may leave a fragment inside the implant. This study aimed to introduce the modified design of a tool to extract the stripped abutment screw from the implant body and to analyses the deformation, stress and strain acting on the tool using the finite element method.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Session : 3
THERMAL Paper ID
Title
Author
Email: id
ICAME 23
Effect of Helmholtz resonator shape on suppression of instability due to thermo-acoustic
Nilaj Deshmukh, Afzal Ansari, Aishwarya Phalak, Joel D'Sa, Mohanish Chaudhari, Austin Mathew
[email protected], [email protected], [email protected], [email protected], mohanishchaudhari3115@gm ail.com,austinnmathew@gmai l.com
ICAME 51
Experimental Investigation On Heat Transfer Performance Of Rotatory Desiccant Dehumidifier
Zafar Alam, Taliv Hussain
[email protected]
ICAME 52
A Technical Review of Available Desiccant Design Techniques
Ajay Sharma, Shubham Kumar Mishra, Ashutosh Kumar Verma, Laxmikant Yadav
[email protected]
Shrikant Arunrao Thote, Netra Pal Singh
[email protected], [email protected]
ICAME 59 ICAME 76 ICAME 82 ICAME 86
Variation in the enhancement of heat transfer with different fluids using twisted tape inserts Numerical analysis of heat transfer from perforated fins of an induction motor housing Effect of undercut slots on the overall performance of micro-channel heat sink Study of the Secant Pile Wall technique, its application and Substantial Construction Using the Non-Biodegradable Waste as partial replacement for Concrete materials
Madhao Bhambere and Sharad Chaudhari M.N. Khan, M.N. Karimi, M.A. Khan, M.Y. Siddiqui, T. Rehmaan Pallavi Chakole, Shubham Date
ICAME 88
Research and development of photo acoustic imaging system for dental application
Rohan Gajbhiye, Rajan Katre, Pawan Rahangdale. Pranay Mahakale, Ashish Raut
ICAME 97
Observational Analysis of Stationary C.I. Engine Output and Emission Evaluation for Variance of Induction Pressure Aspects
Dipak C. Talele1, Dheeraj S. Deshmukh, M. S. Deshmukh, Sheetal D. Deshmukh, Vilas S. Patil
Numerical Simulation of Nucleate Boiling Heat Transfer Performance using SiO2/Water Nano-fluid Utilization of Waste Heat of Condenser for Water Heating of Domestic Refrigerator Without Changing COP
Akshay Kumar Singh, Sudhir Kumar Singh, Deepak Sharma Wasim Babulal Patel, Amol Vikas Joshi, Pranav Charkha, Jitendra N. Wadadkar
ICAME 111
Heat Integration And Heat Exchanger Network Design With Aspen Energy Analyzer
K R Pethe, P M Dabhade, V J Kolekar, M D Sardare
ICAME 125
Thermal Performance Improvement of Modified Hemispherical Cavity Receiver with Air Curtain
Abhishek Simer, Akanksha Maurya, Anoop Kumar
ICAME 99 ICAME 108
[email protected] [email protected] [email protected], [email protected] m [email protected] soni.net,katre_rajan.me@ghrc e.raisoni.net,rahangdale_pawa [email protected],maha [email protected] i.net, [email protected] [email protected] om,deshmukh.dheeraj@gmail. com,msdeshmukh@aissmscoe .com,sheetaldheeradeshmukh1 1@gmail,vilaspatil24@yahoo. co.in [email protected] [email protected] t [email protected], [email protected], [email protected], [email protected] [email protected], [email protected], [email protected]
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
ABSTRACT
THERMAL ICAME 23 AUTHORS ABSTRACT
ICAME 51 AUTHORS ABSTRACT
ICAME 52 AUTHORS ABSTRACT
Effect of Helmholtz resonator shape on suppression of instability due to thermoacoustic Nilaj Deshmukh, Afzal Ansari, Aishwarya Phalak, Joel D'Sa, Mohanish Chaudhari, Austin Mathew In combustion chambers thermo-acoustic instabilities arise due to the coupling between the unsteady heat release and pressure fluctuations. The instabilities created cause serious structural vibration, flame blow out, increase in heat transfer and damage thereby reducing the life span and performance of jet engines, gas turbines and industrial burners. Therefore, there is need to develop a simple technique for effective control of these instabilities. The present work involves experimental study of thermo-acoustic instabilities occurring in a Rijke tube and their suppression by using Helmholtz resonators of different shape (a passive method of suppression). The combustor model is replaced by Rijke tube which is an experimental setup extensively employed for research purpose. Rijke tube is provided with a co-axial pre-mixed gas burner as the source of heat which could be placed at any desired position. When a heat source with proper air to fuel ratio is placed at about one fourth of the tube length, 3rd mode of in-stability is obtained and a loud noise of frequency 681 Hz is produced. A comparative study of thermo-acoustic instability suppression using cylindrical, spherical and conical Helmholtz resonators has been performed. Spherical resonator has been found to be the most effective one imparting a maximum damping effect of 20 dB and an average damping effect of 10.5 dB. Experimental Investigation on Heat Transfer Performance of Rotatory Desiccant Dehumidifier Zafar Alam, Taliv Hussain Dry air plays an essential role in achieving human comfort and in other applications like product drying, food storage, etc. one of the best methods to produce dry air is by employing a desiccant dehumidifier. A rotatory desiccant wheel with silic a gel is used in the present work. Current work involves the optimization of the desiccant wheel performance in terms of airflow rates along with ambient temperatures. Optimization of desiccant wheel is suggested by maximum value of various performance parameters involved in this study. Required conditions have been set up by the pretreatment section installed before the desiccant wheel. At the regeneration section two electric heater (250 watt each) is fitted through which the desiccant material is regenerated. This work is conducted for humid and hot conditions and found that the optimum functioning of desiccant wheel dehumidifier is found at 31℃ ambient temperature and at the inlet 3.5 m/s velocity of air. A Technical Review of Available Desiccant Design Techniques Ajay Sharma, Shubham Kumar Mishra, Ashutosh Kumar Verma, Laxmikant Yadav Desiccant wheel system is a topic of research because of increased requirement in HVAC industry and in dehumidification industry. In HVAC industry desiccant cooling system operating on regenerating heat supply from renewable source as solar are making their impact and desiccant wheel plays important role as main part in dehumidification industry. It’s been approximately two decades since the desiccant wheel has made around in market for large level. Many designs and technologies are already available for desiccant wheels and some are available within the research and experiments only. This article provides a better understanding of available research and designs for desiccant wheel systems. Review for difference of liquid and solid desiccants operated cooling systems, various regenerating technologies used for desiccant different desiccant material and different materials for subtract of desiccant wheel, different construction design in terms of number of sectors and direction of air flowing in the desiccant sections prepared and discussed here. Apart from this various simulation models of desiccant systems studied based on mathematical models are
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
studied here. Based on these reviews an effective conclusion is given for desiccant operated systems. At the end of the review future possibilities for advancement in desiccant industries are mentioned. ICAME 59 AUTHORS ABSTRACT
Variation in the enhancement of heat transfer with different fluids using twisted tape inserts Shrikant Arunrao Thote, Netra Pal Singh This research intends to look into the transformation of heat, factors affecting the friction, and characteristics of the efficacy ratio for the ratio of twist as 3.0, 4.4, and 6.0, independently of a concentric pipe heat exchanger with and without trapezoidal section twisted tape insert. For different Reynold’s Number (Re) ranges of 200-2000, 800-2000, and 2000-12000, experimentation was accomplished to find the transformation of heat energy and aspect of factors of the friction of coaxial tubes. The investigated data from the tube without an insert were compared to the conventional correspondence to assure that the investigation output was valid. The findings of the trapezoidal section twisted tape tube has been in contrast to the simple tube's results. The consequences reveal that the trapezoidal section twisted tape appreciably improves heat transmission along with friction coefficient. The Trapezoidal section twisted tape enhancement transmission of heat was once additionally judged to be practical because the realized output ratio is maximum than unity. The twisted tape has a greater Nusselt Number (Nu), frictional influence, and overall efficacy attainment than a plain tube, by the research. According to the tapes that have been tested, the tapes with the lowest twist ratio 3.0 are greater fine than the tapes with the other ratio of twist, as a consequence of the fact that the tape with the lowest ratio of twist is the most environmentally friendly at supplying heat augmentation.
ICAME 76 AUTHORS ABSTRACT
Numerical analysis of heat transfer from perforated fins of an induction motor housing Madhao Bhambere and Sharad Chaudhari The major goal of this research article is to demonstrate how perforation on the fin surface of an induction motor's housing improves cooling performance. Heat transfer study was also conducted between traditional fins and the suggested perforated fins housing. An Induction Motor (IM) overheats as a result of continuous operation, raising its temperature, lowering its performance and shortening its lifespan. The innovative designs and development of fins are necessary for effective cooling and enhancing the thermal performance of IM. In the present work, the thermal analysis of induction motor is carried out by means of providing the perforations on existing fins and varying perforation size from 4 mm to 10 mm diameters and number of perforation from 20 to 11, on fins and observed the steady state heat transfer and temperature variation. In this regard, the half part of IM is modelled because of symmetry and steady state thermal analysis is carried out for un-finned, solid fins and perforated fins using ANSYS software. Results show that, more reduction in temperature on the surface of IM is observed in case of perforated fins having 11 perforations of 10 mm diameter, as compared to the other cases.
ICAME 82 AUTHORS ABSTRACT
Effect of undercut slots on the overall performance of micro-channel heat sink M.N. Khan, M.N. Karimi, M.A. Khan, M.Y. Siddiqui, T. Rehmaan In the current study, a numerical analysis has been performed to examine the performance characteristics of the slotted microchannel heat sink. Twelve equidistant slots are entrenched at the base wall of the channel. Four different shapes of slots are considered in this study. They are rectangular (C1), trapezoidal (C2), V (C3) and curved shaped (CASE 4). Numerical simulations have been performed for these cases with Reynold’s number ranging between 150 to 350 with a constant heat flux of 100 W/cm2 and the results are compared with the plain channel. It is observed that cases 1 and 2 have higher overall thermal performance than the plain channel in which C2 outperforms C1 whereas the performance of cases 3 and 4 are lower than the plain
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
microchannel. It is suggested from the analysis that the plain microchannel may be replaced by a trapezoidal shape slotted microchannel in further studies. ICAME 86 AUTHORS ABSTRACT
ICAME 88 AUTHORS ABSTRACT
ICAME 97 AUTHORS ABSTRACT
Study of the Secant Pile Wall technique, its application and Substantial Construction Using the Non-Biodegradable Waste as partial replacement for Concrete materials Pallavi Chakole, Shubham Date The planning and execution of the project of a Secant Pile wall are presented in this study. Secant pile walls are a type of embedded retaining wall that allows for excavation of great depths in water-logged terrain and soft sub stratum. To construct the walls, pilings are placed in a certain order. Soft piles are set first, then hard piles are laid on both sides, overlapping and cutting through the soft piles. This design can also be utilised as a cut-off wall for fine sands and very soft wet soils. In light of the significant growth, the idea of using no biodegradable trash in concrete is also incorporated. Many no biodegradable wastes exist; this study includes research on the potential reuse of ceramic waste, plastic granules, and glass trash as partial replacements in concrete materials. These waste materials are collected in various percentages and replenished using the cited publications. The properties of concrete containing the appropriate waste material are investigated. Research and development of photo acoustic imaging system for dental application Rohan Gajbhiye, Rajan Katre, Pawan Rahangdale. Pranay Mahakale, Ashish Raut There are various techniques used in medical operations and treatment. For the purpose of treatment in the dental domain there are a wide range of tools and technologies available, most of them are traditional techniques. Nowadays some modern technologies are being introduced to increase the efficiency and results of the treatment. In dental various diseases like caries, periodontitis, and lesions are predominant in patients according to the data and survey. These diseases can be life threatening and can even cause death if not treated properly. These diseases decrease the quality and lifespan of the patients. Therefore, we need a technology which will be able to detect these problems at a very early stage. The traditional techniques available are not up to the mark and cannot detect these problems at a very early stage. It can be too late when the dentist would know what exactly the problem is. X-ray imaging is one of the traditional techniques being used from the old era. It is still being used in many treatment centres. The main backdrop of this system is that it has very little scope of imaging and cannot give a detailed image. Also, continuous exposure to radiation from X-ray can be harmful for the patients as it requires recurring attempts, Hence, Photoacoustic imaging techniques is one of the best imaging techniques being introduced in modern treatment techniques. It is non-invasive, efficient and has a wide range of microscopy for developing images of affected areas. We will discuss the research of various authors and their methodology and their advancements in photoacoustic imaging and go in depth of the components used to develop that system. Observational Analysis of Stationary C.I. Engine Output and Emission Evaluation for Variance of Induction Pressure Aspects Dipak C. Talele, Dheeraj S. Deshmukh, M. S. Deshmukh, Sheetal D. Deshmukh, Vilas S. Patil In the current environment, improved engine performance, reduced fuel consumption and reduced emissions are important goals for automotive manufacturers. To understand the factors involved in the compartment assemblies in Compression Ignition (C I) engines it is crucial to concentrate on such goals. Pressure rating, fuel atomization, fuel pressure, fuel quality, air pressure rating, air temperature, pressure and other design components such as piston, Air induction system, and assembly chamber and more to work. It is evident from the literature review and research work carried out to date that the airing system is best method of promoting C I operation of the engine. The design of the Air suction system could be achieved in this way that it takes into account the objectives of entire system. Effective air suction system
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
improvement needs least energy utilization and most extreme use of air intake pressure for decrease in poisonous productions at outlet of C I engines. Furthermore, powerful use of fuel vitality. In present work, air suction arrangement, exclusively less air inlet pressure during suction stroke of four stroke cycle engine concern is topic of explicit enthusiasm for plan. Advancement of air induction system with air induction pressure regulator, flow distribution, action is studied and useful information is developed through proper intake manifold arrangement for better fuel efficiency. ICAME 99 AUTHORS ABSTRACT
ICAME 108 AUTHORS ABSTRACT
ICAME 111 AUTHORS ABSTRACT
Numerical Simulation of Nucleate Boiling Heat Transfer Performance using SiO2/Water Nano-fluid Akshay Kumar Singh, Sudhir Kumar Singh, Deepak Sharma Nucleate boiling regime is the most efficient regime that gives the maximum heat flux at the wall superheat range of 5 °C to 30 °C. In this current study, the nucleate pool boiling heat transfer performance of SiO2/water Nano fluid are studied numerically. The effect of volume fraction (0.01 – 0.06 vol. %) of Nano fluid on heat transfer coefficient and wall superheat are investigated. The variation in heat transfer coefficient (HTC) & wall superheat with different heat flux are investigated. Eulerian multiphase approach with RPI boiling model is used to carry out the simulation. The pool boiling heat transfer performance increased with rise in volume concentration of Nano fluid up to an optimum concentration of 0.05 % and then it starts to decrease. A reduction in wall superheat of 6.7 %, 8.43 %, 11.27 % and 9.3 % are obtained for SiO2/water Nano fluid with volumetric concentration of 0.01, 0.02, 0.05 and 0.06 vol. % respectively as compared to base fluid. Heat transfer coefficient enhanced by 3.55 %, 7.2 %, 23.87 % and 19.67 % for SiO2/water Nano fluid with volumetric concentration of 0.01, 0.02, 0.05 and 0.06 vol. % respectively as compared to base fluid. Utilization of Waste Heat of Condenser for Water Heating of Domestic Refrigerator without Changing COP Wasim Babulal Patel, Amol Vikas Joshi, Pranav Charkha, Jitendra N. Wadadkar Conservation of energy is very important factor in economic and financial development of country. Refrigeration system utilizes enormous amount and lost from refrigerator is also a major concern which ultimately rejected to atmosphere causing rise in temperature. On the other hand electricity is consumed to heat water. So it is necessary to utilize this rejected heat. In this paper the extracted heat from refrigeration is used to heat water by utilizing water cooled condenser without affecting COP of the system. The setup is installed on domestic refrigerator containing condensing coil, temperature sensors for reading and insulated tank attached to domestic refrigerator as it is widely used in almost every house. Heat Integration and Heat Exchanger Network Design with Aspen Energy Analyzer K R Pethe, P M Dabhade, V J Kolekar, M D Sardare The considerable amount of energy used in industrial processes is typically used for heating and cooling. The synthesis of heat ex-changer networks (HEN) is a critical topic in this industry in order to reduce energy and capital costs in chemical plants. Heating and cooling systems in industry must be designed efficiently, which can be done using technologies like pinch analysis to create an optimal heat recovery network. Heat pinch analysis is a systematic method for designing thermally efficient systems. A designer can determine the minimum heating and cooling requirements as well as the maximum heat recovery (MHR) potential by locating a thermodynamic bottleneck, or the pinch point for heat recovery. This Paper uses Aspen Energy Analyzer for HEN Design. Heat integration network design is a cost-effective strategy that helps industries to cut costs by reducing the number of external utilities needed and increase profitability by lowering energy consumption. The HENs' composite curves, grand composite curves, grid representation, and target reports were created using the Aspen Energy Analyzer. The software suggested ten designs, which were
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
then optimized based on total annualized cost. By comparing it to other optimized designs, the best design is considered. ICAME 125 AUTHORS ABSTRACT
Thermal Performance Improvement of Modified Hemispherical Cavity Receiver with Air Curtain Abhishek Simer, Akanksha Maurya, Anoop Kumar Heat losses from solar cavity receivers degrade the efficiency of solar parabolic dish collector system. Specifically, increased convection losses emulate a significant contribution in decreasing the performance of the modified solar cavity receiver and hence, reducing these convection losses has become a matter of great concern. The Air curtain plays a crucial role in minimizing the convection losses. This work proposes an air curtain-based modified cavity receiver wherein a plane nozzle is placed on the face of receiver to produce air curtain effect. Air curtain will prevent hot air from escaping the modified cavity receiver and increase the stagnation zone inside it to reduce natural convection on the surfaces. Numerical analyses are performed considering different air velocities and receiver orientations to evaluate the effect of air curtains on the convection losses. The impact of plane air nozzle parameters like outlet temperature, inclination, and outlet velocity of the nozzle on convection losses are shown and these parameters’ optimal value is evaluated. Our results state that the air curtain attached to the modified solar cavity receiver significantly improves performance by reducing the convection losses.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
Session : 4
MATERIAL Paper ID ICAME 33 ICAME 58
Title Electrodeposited nickel matrix composites: wear characterisation - A Review Surface Functionalization of Jute Fibers In The Presence Of Sodium Hydroxide and Graphene Oxide in the Preparation of Bio Composite
Author
Email: id
Atul Dhakne, Santosh Jaju, Sourabh Shukla
[email protected]
Yogendra Kumar Verma, Amit Kumar Singh, M. K. Paswan, Puneet Kumar Sonker
[email protected]
ICAME 60
Aditya Alagatu, Darshan Detailed study on basic methodology Dhapade, Mayuresh of dental implant and surface Gajbhiye, Ritik Panjrekar, modification techniques Ashish Raut, Nilesh Awate, Praneeta Priya
[email protected] oni.net,dhapade_darshan.me@ ghrce.raisoni.net, gajbhiye_mayuresh.me@ghrc e.raisoni.net, , [email protected],
ICAME 68
Flexural strength of Epoxy resin and Bagasse fiber reinforced composite materials
[email protected]
ICAME 75 ICAME 79 ICAME 96
ICAME 113 ICAME 116 ICAME 117
Utilization of nanomaterials in bioimaging and cancer thernostics
Anurag Saroj, Ravi Vishwakarma, Chandra Bhushan Prachi Dabhade, Dr. Ashutosh Bagde, Dr. Zahiruddin Quazi Syed, Dr. Punit Fulzele
[email protected], [email protected], [email protected]
Prediction of Mechanical Properties of Friction Stir Welded AA7075T651 Joints using Adaptive Neuro Fuzzy Inference System
Vaibhav S. Gaikwad, Satish Chinchanikar
address:vsgaikwad113@gmail .com [email protected]
Study on Polyether-ether-ketone (PEEK) dental implant, future alternatives to Titanium
Prasad Patil, Ritik Katole, Archi Parekh, Hitakshi Doifode, Amol Pitale, Nilesh Awate, Praneeta Priya
[email protected] i.net,[email protected] isoni.net,parekh_archi.me@gh rce.raisoni.net,doifode_hitaksh [email protected]
Safraj Ansari, Amrit Anand Dosar, Sunil Kumar
[email protected]
Sudarshan Buteley, Lalit P. Dhole and Vivek W. Khond
[email protected]
Mayur Shendea, Ashutosh Bombatea, Manish Kumbharea, Chaitanya Dhabalea, Sourabh Shukla
[email protected]
Experimental Studies on TIG Welding of Advanced Material under various parameters An overview of Recent Advancement in grade Cladded Surface using Overlay Techniques and various materials. A review of effect on metallurgical properties of friction stir welding using high entropy alloy.
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
ABSTRACT
MATERIAL ICAME 33 AUTHORS ABSTRACT
ICAME 58 AUTHORS ABSTRACT
ICAME 60 AUTHORS ABSTRACT
Electrodeposited nickel matrix composites: wear characterisation - A Review Atul Dhakne, Santosh Jaju, Sourabh Shukla Corrosion resistance across a wide temperature range, increased physical, mechanical, and tribological capabilities, variable surface hydrophobicity, and an attractive appearance are all advantages of electrodeposited metal matrix coatings (MMCs). As a result, several studies have been conducted to evaluate the various physical, mechanical, biochemical, electrochemistry, and thermodynamics characteristics of nanocrystalline composite material generated on a variety of substrates with a variety of electrodeposition settings. In this paper, wear rate of electrode-posited Ni-based Coatings made of composite materials are being investigated. Weight management, wear resistance, coefficient of friction, surface roughness, hardness and also underlying deterioration methods, will be investigated as a consequence of the category, composition, under various electrodeposition settings, the size and dispersion of reinforcing particles. Nano-composite films offer substantially superior wear resistance than magnesium alloys and pure nickel coatings due to diffraction stiffening and grain refining effects. Abrasion is the main wear process for nanocomposite coatings, whereas adhesion wear is the primary wear arrangement for magnesium alloys and major wear mechanism for pure nickel coatings is exfoliation wear. Surface Functionalization of Jute Fibers In The Presence Of Sodium Hydroxide and Graphene Oxide in the Preparation of Bio Composite Yogendra Kumar Verma, Amit Kumar Singh, M. K. Paswan, Puneet Kumar Sonker The natural fibers (jute, bamboo, banana etc.) has high strength to weight ratios, inexpensiveness, low densities, good mechanical properties, environment friendly, ease of manufacturing and availability due to this properties natural fibers are now days vitally popular. Jute fibers have good mechanical properties. The interfacial strength (23.6%) and tensile strength (96%) of the coated jute fibers increases more than untreated jute fibers. The morphologies of treated and untreated jute fibers surface are display very different in the analysis of SEM. Which jute fibers are untreated that smooth and it contains hemicellulose, lignin and pectin and they are covered with lots of lump materials. Which are removed after functionalization of the jute fibers in the presence of NaOH. This work presented the improvement of the epoxy based composite with the functionalized jute fibers as filler used for increased the mechanical (tensile, flexural strength) properties of the composites. The flexural strength of the prepared composites increases from 259.9MPa to 325.5MPa and the flexural modulus increases from 16.7GPa to 21.5GPa in the prepared composites by using functionalized jute fibers in the comparison of untreated jute fibers composites. These jute fibers based composites very useful for the environment so it can reduce the synthetic fibers based composites. Detailed study on basic methodology of dental implant and surface modification techniques Aditya Alagatu, Darshan Dhapade, Mayuresh Gajbhiye, Ritik Panjrekar, Ashish Raut, Nilesh Awate, Praneeta Priya Dental implant can be defined as the process of inserting an artificial tooth in the place of natural tooth. This artificial tooth consists of: a) abutment b) Custom made crown and c) an implant. Since it is replacing the natural tooth, it should resemble and work in the same manner. It should not break under the chewing load. Dental implant shows great success rate but over the years. They are regarded as a significant contribution to dentistry since they have changed the process of replacing lost teeth. The capacity of the implant material to integrate with the surrounding tissue is critical to its success. Dental implants are artificial dental roots that are used to replace missing teeth. Dental implant is slightly expensive and patient has to go through plenty of processes like
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
surgery. Moreover, even after taking all the preventive measures there are still chances of failing the implant and hence material selection and surface modification techniques used in Dental implant plays a crucial role. ICAME 68 AUTHORS ABSTRACT
Flexural strength of Epoxy resin and Bagasse fiber reinforced composite materials Anurag Saroj, Ravi Vishwakarma, Chandra Bhushan In this research, we are going to take out to investigate flexural strength and tensile strength properties of composite material with the using of epoxy resin and bagasse fibre in the powder form. These composites are bonded using epoxy resin and hardener mixed in appropriate volume. This composite was prepared with using bagasse fibre in powder form and the bagasse fibre powder used with different ratio in each material which are prepared and we found the high strength at the using 5gm bagasse fibre powder in both of Tensile and Flexural strength. Here for preparing specimen using Hand layup method. It can be use in more way because rare future of the environmentally friendly, waste utilization, good strength, bio-degradability and alternative for plastic.
ICAME 75 AUTHORS ABSTRACT
Utilization of Nanomaterials in Bioimaging and Cancer Thernostics Prachi Dabhade, Dr. Ashutosh Bagde, Dr. Zahiruddin Quazi Syed, Dr. Punit Fulzele Cancer therapy has evolved in recent times on diagnostic and therapeutic grounds. Nanotechnology is the latest technique used to design nanoparticles having therapeutic applications in diseases like cancer. There are various such nanoparticles types made up of gold, silver, iron, and other compounds. Much recent are the bioinspired and theragnostic nanoparticles which exhibit good biocompatibility and much more effective drug delivery compared to the traditional drug delivery mechanisms. Bioimaging is a visualization process that aids to locate the cancer cell target or tumor-targeted delivered nanoparticles to understand and study the actual status of the disease conditions. In this review, we have discussed these various nanomaterials and its counterparts having applications in cancer theragnostic.
ICAME 79 AUTHORS ABSTRACT
ICAME 96 AUTHORS ABSTRACT
Prediction of Mechanical Properties of Friction Stir Welded AA7075-T651 Joints using Adaptive Neuro Fuzzy Inference System Vaibhav S. Gaikwad, Satish Chinchanikar In this paper, prediction models for the mechanical properties viz. ultimate tensile strength (UTS), microhardness at weld nugget (MWN), and surface roughness (SR) in weld bead of friction stir welded (FSWed) AA7075-T651 are developed. The adaptive fuzzy inference system (ANFIS) technique is implemented for the development of the models. The models are developed using triangular, trapezoidal, gaussian and generalized bell membership functions and predicted values are compared. The generalized bell membership function shows minimum testing error of 8.237, 0.6829, and 3.1927 for UTS, MWN, and SR respectively. The validation experiment is done at welding speed of 20 mm/min and tool rotation speed of 1400 rpm in order to check the predicted ANFIS output. The observed values obtained after the validation experiment for UTS, MWN, and SR are closer to the predicted ANFIS output. The scanning electron microscopy images (SEM) with energy dispersive Xray spectrometer (EDS) analysis confirmed the homogeneous mixing of material, laminar material flow with the equiaxed grain (size ~ 8 to 11 µm) distribution at the weld nugget (WN). The SEM images of fractured tensile specimen shows the small dimples with the failure of specimen in heat affected zone (HAZ). Study on Polyether-ether-ketone (PEEK) dental implant, future alternatives to Titanium Prasad Patil, Ritik Katole, Archi Parekh, Hitakshi Doifode, Amol Pitale, Nilesh Awate, Praneeta Priya Dental implant can be defined as the process of inserting an artificial tooth in the place of the natural tooth. This artificial tooth consists of a) an abutment b) Custom made
International Conference on Advances in Maechanical Engineering (ICAME-2022), 27-28 May 2022, Jointly Organized by Mechanical Engineering Department , G H Raisoni College of Engineering, Nagpur & G H Raisoni Institute of Engineering & Technology, Nagpur
crown and (c) Implant. Dental implants are of two major types Endosteal and Subperiosteal Implant, endosteal is more widely used and nowadays Subperiosteal is very rare. Apart from types, it also has variety of materials usage. The widely used materials are titanium and zirconia. Both titanium and zirconium have lots of disadvantages, to overcome those we can use PEEK that is polyether-ether-ketone. PEEK has many advantages like Flexibility, Radiolucency, Aesthetic features, Thermal resistance, Cost-Efficient and its Biocompatibility. This all advantages makes us see PEEK as a reliable alternative to the present materials that is titanium and zirconia. PEEK also have long life and it is insoluble having low moisture absorption, low density (1.32 g/cm3), low elastic modulus. This study shows mechanical analysis of PEEK abutments. ICAME 113 AUTHORS ABSTRACT
ICAME 116 AUTHORS ABSTRACT
ICAME 117 AUTHORS ABSTRACT
Experimental Studies on TIG Welding of Advanced Material under various parameters Safraj Ansari, Amrit Anand Dosar, Sunil Kumar The material stainless steel (AISI 309) is extensively used in almost all types of thermal power plant, petroleum industries, waste treatment industries etc. The material AISI 309 stainless steel is used as sample which is prepared by wire cut EDM process. The sample dimension is tested according to the ASTM standard. Tungsten inert gas (TIG) welding is used to improve mechanical properties and to reduce the manufacturing costs, by the taguchi`s experimental design method which is used for optimization. The three different welding process parameters such as GFR, WS and WC have opted to perform the tests using L9 orthogonal array. The tensile strength and bending strength test are conducted to check the final weld quality. The maximization of ultimate tensile strength, impact strength and bending strength of weld joints results has obtained by input parameters such as welding current 170amp, welding speed 2 mm/sec and gas flow rate 15 lit/min. It is observed that current and welding speed influence to maximize mechanical properties of weld joints. An overview of Recent Advancement in grade Cladded Surface using Overlay Techniques and various materials. Sudarshan Buteley, Lalit P. Dhole and Vivek W. Khond In this review paper, previous studies on effect of cladding on surface of welding using overlay was discussed. The Research papers up to 2021 related with various cladding methods, effect on mechanical properties and overlay methods were discussed. Also, paper discussed the effect on tribological behavior. This paper reported the various metal and its alloy, recent development in advanced materials for cladding in various high temperature applications. The merits, demerits, limitations and future development and possible area of research in welding cladding methods were discussed. A Review of Effect on Metallurgical Properties of Friction Stir Welding Using High Entropy Alloy Mayur Shendea, Ashutosh Bombatea, Manish Kumbharea, Chaitanya Dhabalea, Sourabh Shukla The work summarizes the review of use of High Entropy Alloy in the Friction Stir Welding. When High Entropy Alloy is utilized in the Friction Stir Welding the resultant mechanical, metallurgical as well as corrosive properties show the influence of HEA base material properties. The Process used to obtain HEA provides base properties affecting the microstructural impact due to heat generation in FSW. Taking into account HEA, FSW too improve the welding properties of the material. The grain size was affected by heat generation and pressure of rotational as well as transverse speed, and could be differentiated in different zones (SZ, HAZ, and TMAZ) and sides (advancing, retreating, top, and bottom). Results of misorentation, HABs, and LABs were influences by the type of recrystallization. GGAE are associated to HABs and SFE to heating phenomenon, so overall it is HEA reaction to the heat generation in different areas and its effects seen in recrystallization of grains.