https://mechanical.journalspub.info/index.php?journal=IJMS&page=issue&op=feedInternational Journal of Manufacturing and Materials Processing2024-02-23T07:04:15+00:00Komal Palkomal.pal@celnet.inOpen Journal Systems<p><strong>International Journal of Manufacturing and Material Processing (IJMMP)</strong></p><p><strong>ISSN: </strong>2582-5046</p><p><strong>Journal DOI: </strong>10.37628/IJMMP</p><p><strong><strong>Scientific Journal Impact Factor (SJIF): </strong></strong>5.99</p><div><strong>Click <a title="Editorial Board" href="/index.php?journal=IJMS&page=about&op=editorialTeam" target="_blank">here</a> for complete Editorial Board</strong> </div><div> </div><div>International Journal of Manufacturing and Material Processing is a peer-reviewed journal that provides students, researchers and leading industries with high quality of scientific data. Journal focuses on traditional and non-traditional manufacturing processes, as well as new advances in designing methodology, making the theoretical aspect of the research as important as the practicality of the work done. The prominence of the journal lies in the industrial application and novelty of the research work.</div><p> Focus and Scope of the Journal cover the following:</p><p><span>• Computer-Aided Design and Manufacturing</span><br /><span>• Beneficiation, Fabrications and assembly</span><br /><span>• Traditional, Non-Traditional and flexible Manufacturing Processes,</span><br /><span>• Machining,Joining, Thermal Treatment, and finishing processes</span><br /><span>• Recycling, Vacuum Technology</span><br /><span>• Material Optimisation, Surface Engineering</span><br /><span>• Composite Materials</span><br /><span>• Reverse Engineering processes</span><br /><span>• Lean Manufacturing, Textile Engineering</span><br /><span>• Mechatronics, Friction Stir welding</span><br /><span>• Finite Element Modeling,</span><br /><span>• Modal Testing, Model Updating,</span><br /><span>• Structural Damage Detection And System Identification</span></p><p><span>All contributions to the journal are rigorously refereed and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance.</span></p><p><strong>Readership</strong>: Graduate, Postgraduate, Research Scholar, Faculties, Institutions, and in Industries.</p><p><strong>Submission of Paper:</strong> </p><div><p>All contributions to the journal are rigorously refereed and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance. </p><p>Manuscripts are invited from academicians, students, research scholars and faculties for publication consideration. Papers are accepted for editorial consideration through mail <a href="mailto:mechanical.editor@celnet.in" target="_blank">mechanical.editor@celnet.in</a></p><p>Subject: Mechanical Engineering</p><p>Plagiarism: All the articles will be check through <strong>Plagiarism Software </strong>before publication. </p><p><strong><strong>Indexed in: </strong><strong>DRJI, Citefactor, Journal TOC, Google Scholar, </strong><a href="https://journals.indexcopernicus.com/search/details?id=124943">Index Copernicus (ICV</a>: 49.97)</strong></p><p>Abbreviation: IJMS</p><p>Frequency: Two issues per year</p><p><a href="/index.php?journal=IJMS&page=about&op=editorialPolicies#peerReviewProcess">Peer Reviewed Policy</a></p><p><a href="/index.php?journal=IJMS&page=about&op=editorialTeam">Editorial Board</a></p><p><a href="http://journalspub.com/pdf/Guidelines%20for%20authors.pdf">Instructions to Authors</a></p></div>https://mechanical.journalspub.info/index.php?journal=IJMS&page=article&op=view&path%5B%5D=1593Electroforming Technology for Advanced Metal Fabrication2024-02-23T07:04:15+00:00T R Vijayaramvijayaram.mech@bharathuniv.ac.in<p>Electroforming technology is a highly specialized process for fabricating a metal part by electro deposition in a plating bath over a base form or mandrel which is subsequently removed. On a mandrel, also known as a mold or matrix, which is removed, metal is electrodeposited. As a result, the coating turns into the product. Intricate parts made of nickel, copper, gold, and silver, such as molds, dies, waveguides, nozzles, and bellows, are best produced using the electroforming process. The paper examines electroforming equipment, materials, and their interactions and emphasizes the post-processing steps and subtle surface finishing techniques that are necessary to achieve superior mechanical properties. By examining actual case studies, the study highlights how electroforming can be successfully incorporated into a variety of industries and highlights how it can be used to create precise components with complex geometries. The process description, benefits, and main engineering applications of electroforming technology are covered in this article. This review paper discusses the electroforming process description, benefits, advantages, comparison with other fabrication methods, and its applications.</p><p> </p>2024-02-23T07:00:55+00:00Copyright (c) 2024 International Journal of Manufacturing and Materials Processinghttps://mechanical.journalspub.info/index.php?journal=IJMS&page=article&op=view&path%5B%5D=1586Design And Fabrication Of Foot Wear Garbage Reinforcement Fly Ash And Paver Block2024-01-19T04:49:29+00:00Murugananthan Kmurugananthanmech@kamarajengg.edu.inSilamparasan Pmurugananthanmech@kamarajengg.edu.inVignesh Lmurugananthanmech@kamarajengg.edu.inPraveen Cmurugananthanmech@kamarajengg.edu.inNarayanasamy Pmurugananthanmech@kamarajengg.edu.inNowadays, the paving blocks and fly ash that in the market are heavy and the price are costly. This study will introduce the lightweight paving blocks and more affordable because the foot wear waste materials are use in the development of the concrete paving blocks and fly ash bricks namely as Eco-Friendly Paving Block and fly ash are make. Eco paving blocks will be compared to control paving blocks due to its durability and compressive strength. The method and test for concrete work was conducted which is density test and compressive strength test. The result shows that Eco-Friendly Paving Block can be used at non-traffic area based on their compressive strength the 20% of strength is reduced compared to the normal paver block value and the density is 5% is decreased. The uses of this waste material also can reduce the amount of environmental pollutants such as water, soil pollution and when heating the foot wear air pollution.2023-12-30T11:17:58+00:00Copyright (c) 2023 International Journal of Manufacturing and Materials Processinghttps://mechanical.journalspub.info/index.php?journal=IJMS&page=article&op=view&path%5B%5D=1585A Laboratory Test Methodology Development For Validating 4wd Front Axle Spindle2024-01-19T04:49:29+00:00Abhirup Chakrabortyabhirup30deep@gmail.comSuvendu Sethiabhirup30deep@gmail.comSuresh Mabhirup30deep@gmail.com<p class="Abstract">Tractor is a vehicle specially designed for performing various agricultural and off-road applications. With the increasing popularity of 4WD tractor, front axle design & validation has become critical. 4WD front axle spindle is a part of 4WD front axle assembly. The power transfers from engine to spindle through input shaft, differential unit, intermediate shaft and King pin shaft. Front axle spindle failure was observed during field testing. No component level test methodology was available to validate the spindle in lab. In this current scope, a new laboratory level test methodology has been developed for capturing the failure. The propeller shaft of the tractor was instrumented, and torque was measured for different application. The acquired torque data was extrapolated for spindle & test specifications were derived. The existing samples were tested in lab and the failure, same as reported during field testing, was simulated in lab. Modified samples were also tested in lab and improvement in terms of life was observed. Field testing was performed with the modified design again for confirmation. No further failure was reported from field testing which ensures the robustness of the newly developed laboratory test methodology.</p>2023-12-30T10:07:29+00:00Copyright (c) 2023 International Journal of Manufacturing and Materials Processinghttps://mechanical.journalspub.info/index.php?journal=IJMS&page=article&op=view&path%5B%5D=1584Design of Flexible Mobile Platforms for Industrial Elevation Tasks2024-01-19T04:49:29+00:00Manuel Georgemanuel.george@mangalam.inSreenath Amanuel.george@mangalam.in<p>The goal of ergonomic risk assessment is to identify and mitigate the risk of injury or discomfort resulting from forceful, uncomfortable, or repetitive movements by evaluating workplace activities and the surrounding environment. The goal of the ergonomic assessment is to make sure that workers are safe and comfortable at work, which can boost output, lower absenteeism, and enhance general job satisfaction.. This will discuss an ergonomic assessment and the steps to conduct an ergonomic assessment in the Workplace. In order to detect and lower the risk of musculoskeletal disorders (MSDs) brought on by clumsy, repetitive, or forceful motions, it assesses workplace practices and environments. The primary goal is to look into different ergonomic risk factors that the workers at KMML (the part that houses the segment production plant) are experiencing connected to musculoskeletal diseases at work. The work suggest corrective measures for task having high risk of developing musculoskeletal disorders and to undertake posture analysis of elevation activities.</p>2023-12-30T09:56:22+00:00Copyright (c) 2023 International Journal of Manufacturing and Materials Processinghttps://mechanical.journalspub.info/index.php?journal=IJMS&page=article&op=view&path%5B%5D=1583Thermal Management Of Cylindrical Lithium-Ion Battery Using A Wavy Tube2024-01-19T04:49:29+00:00Albert Mathewalbert.mathew@mangalam.inParvathy Parthasarathyalbert.mathew@mangalam.inRemin Rafialbert.mathew@mangalam.inPriya Varghesealbert.mathew@mangalam.inShoaib Nalbert.mathew@mangalam.in<p>To maintain a proper temperature range and eliminate local temperature disparities, thermal management is required for lithium-ion batteries in electric vehicles. A wavy tube is presented for a liquid cooling cylindrical lithium-ion battery module in this research. On the suggested battery module, three-dimensional transient simulations were run, and numerical improvements were made by changing the wavy contact angle of the wavy tube.</p><p> The heat dissipation efficiency and temperature field homogeneity of the battery module improve when the wavy contact angle and mass flow rate rise. However, if the wavy contact angle or mass flow rate is raised, the favourable effects decrease because the wavy tube hits its limit in cooling the battery module.</p><p> Experiments were conducted under simulated working settings to verify the battery module's heat transfer capability. The simulation results will provide particular reference values for cylindrical lithium-ion battery module thermal management.</p><p> The circumferential contact area between the wavy tube and the batteries is determined by the wavy contact angle, which has a direct impact on the heat transfer rate from the batteries to the wavy tube and temperature homogeneity inside the battery monomer. A 60-degree contactsfer angle with the battery module has proved to improve working conditions.</p><p>At temperatures ranging from 25°C to 50°C, lithium-ion batteries may work efficiently and achieve a good mix of service performance and cycle life. Because of its excellent heat transfer efficiency, liquid cooling has gotten a lot of interest in BTM system research, especially for battery packs that operate at a fast discharge rate. Water is a better coolant than ethylene glycol, according to the results of both the steady state and transient analyses. However, in practice, a mixture of water and ethylene glycol is employed since it has superior characteristic</p><p><strong><em> </em></strong></p>2023-12-21T10:07:41+00:00Copyright (c) 2023 International Journal of Manufacturing and Materials Processinghttps://mechanical.journalspub.info/index.php?journal=IJMS&page=article&op=view&path%5B%5D=1582Experimental Investigations for Comparing the Effectiveness of Heat Treatment and Cryogenic Treatment on Wear Performance of EN-47 Spring Steel2024-01-19T04:49:29+00:00Yogesh G. Jadhavjadhavyogeshg2012@gmail.comKundansing Naglotjadhavyogeshg2012@gmail.comMahesh Wadwalejadhavyogeshg2012@gmail.comRutvik Gajjalwarjadhavyogeshg2012@gmail.comSwamini Choprajadhavyogeshg2012@gmail.com<p>EN-47 spring steel is chromium, vanadium steel which consists of carbon (0.45–0.55%), manganese (0.50–0.80), silicon (0.50%), phosphorus (0.06%), and sulphur (0.06%) along with chromium (0.80–1.20%) and vanadium (0.15%). Due to this composition EN-47 spring steel become harder and tougher. It has a wide range of applications like crankshafts, steering knuckles, gears, spindles, pumps, suspension etc. So, in this experimental study we treated EN-47 spring steel with cryogenic treatment, cryogenic and tempering treatment, annealing and normalizing and we are going to study the impact of this treatments on its wear resistance offered by it before and after treatment. Samples of EN-47 spring steel are obtained for the study and split into two groups. While the other group is cryogenically treated at temperatures below freezing, the first group goes through a traditional heat treatment procedure. To guarantee precision and uniformity, the precise temperature and duration of each treatment are carefully monitored. After treatment, a variety of analytical procedures, such as microstructure analysis, hardness testing, and wear performance assessment, are used to thoroughly characterize both groups of samples.</p>2023-12-11T10:45:26+00:00Copyright (c) 2023 International Journal of Manufacturing and Materials Processing