International Journal of Industrial Engineering and Design
https://mechanical.journalspub.info/index.php?journal=JIED
<p><strong>International Journal of Industrial Engineering and Design (IJIED)</strong></p><p><strong>Journal DOI: </strong>10.37628/IJIED</p><div><div><strong>Click <a title="Editorial Board" href="/index.php?journal=JIED&page=about&op=editorialTeam" target="_blank">here</a> for complete Editorial Board</strong> </div><div> </div><div>Journal is devoted to the publication of fundamental studies in industrial design and engineering, with an emphasis on operational research. Journal particularly welcomes papers from newly emerging areas as well as traditional fields that form the core of the industrial engineering. Journal welcomes all major types of scientific communications; original research article, review article, editorials as well as short communication that fall under the focus and scope of the journal. The nature of information expected from contributions should preferably be based on the practical aspect of the subject.</div></div><p><strong style="font-size: 1.17em;"><span style="font-size: 10px;">Focus and Scope of the Journal covers the following:</span></strong></p><p>• Operations research and optimization techniques<br />• Supply chain management and logistics<br />• Systems simulation and stochastic processes<br />• Statistical process control or quality control<br />• Predetermined motion time system<br />• Productivity improvement<br />• Materials management<br />• Quality assurance, and inventory control<br />• System and personnel safety.<br />• Value analysis; product quality and reliability<br />• Human resource management</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>Abbreviation: JIED</p><p>Frequency: Two issues per year</p><p><a href="/index.php?journal=JIED&page=about&op=editorialPolicies#peerReviewProcess">Peer Reviewed Policy</a></p><p><a href="/index.php?journal=JIED&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>en-USInternational Journal of Industrial Engineering and DesignThe use of Six Sigma methodologies for improving productivity in industrial operations
https://mechanical.journalspub.info/index.php?journal=JIED&page=article&op=view&path%5B%5D=1532
<p>In in order to improve effectiveness and reduce waste in industrial processes, the Six Sigma technique utilizes data-driven assessment. To find and reduce sources of variability and flaws in manufacturing techniques, the plan enables use of statistical tools and techniques. Six Sigma works to improve output consistency and quality by eliminating variability, therefore boosts output and earnings.</p><p>Numerous industries, including manufacturing, retail, and healthcare, have used Six Sigma methodology with great success. Displaying, including those on the production line, in the supply chain, and in customer service, can be simplified using these strategies.</p><p>When integrating Six Sigma principles to industrial operations, there are numerous important procedures that must be taken. These comprise defining the concern, assessing the process's performance levels, examining the data to find the sources of variability and faults, enhancing the process by removing sources of uncertainty, and regulating the process to insure consistent performance across time.</p><p>Having a disciplined and data-driven commitment to strategy and direction is one of the biggest benefits of employing Six Sigma methodology to increase productivity in industrial operations. With the use of this strategy, companies are able to spot areas that need improvement objectively, assess the effects of those achievements, and keep those improvements over time.</p><p>In theory, utilizing Six Sigma approaches can be an important technique for raising productivity in industrial settings. Six Sigma may help firms dramatically enhance their bottom line by eliminating variability, providing better, and improving efficiency.</p>Shubhaseesh Srivastava
Copyright (c) 2023 International Journal of Industrial Engineering and Design
2023-05-172023-05-17821610.37628/ijied.v8i2.1532Design and Analysis of Stochastic Processes for Predictive Maintenance in Industrial Engineering
https://mechanical.journalspub.info/index.php?journal=JIED&page=article&op=view&path%5B%5D=1530
<p>Predictive maintenance is an appropriate maintenance method that involves making predictions about when equipment failure is likely to happen and carrying out maintenance in advance of that failure. Equipment failures can be modelled and researched using stochastic processes like the Poisson process and the Weibull distribution. With the use of these models, it is possible to compute important variables like the risk of failure and mean time between failures, which may then be utilised to manage equipment performance and direct maintenance decisions. Industrial engineers can raise equipment trustworthiness and minimize unscheduled downtime by employing stochastic modelling and predictive maintenance, which again will ultimately boost profits and productivity.</p>Shweta Varshney
Copyright (c) 2023 International Journal of Industrial Engineering and Design
2023-05-172023-05-1782202510.37628/ijied.v8i2.1530Design for Reliability: A Framework for Enhancing Product Quality in the Consumer Goods Industry
https://mechanical.journalspub.info/index.php?journal=JIED&page=article&op=view&path%5B%5D=1531
<p>In the market, this article offers a framework for boosting product quality and dependability. The<br />essay makes the case that a proactive approach to reliability, beginning with the product&#39;s design<br />phase, can help to lower failure rates, raise customer happiness, and cut down on warranty costs.<br />The importance of trustworthiness in the sector of consumer products is covered in the opening<br />paragraphs of the essay, along with the difficulties in maintaining high levels of accuracy. The<br />framework for designing for dependability is then presented, and it entails detecting potential<br />failure modes, measuring the likelihood and severity of each mode, and making any necessary<br />design adjustments to decrease the risk of failure.<br />The article uses a case study of a consumer product to describe the framework and demonstrate<br />how its use significantly increased product reliability. The paper also covers the rewards of the<br />framework, such as minimized warranty costs, elevated client experience, and enhanced brand<br />reputation.<br />Overall, the research provides a helpful framework for raising product quality and dependability<br />in the consumer products sector and emphasises the significance of a proactive strategy to<br />reliability, started with the design process.</p>Rohit Rana
Copyright (c) 2023 International Journal of Industrial Engineering and Design
2023-05-172023-05-1782131910.37628/ijied.v8i2.1531Development of green supply chain management in the manufacturing industry
https://mechanical.journalspub.info/index.php?journal=JIED&page=article&op=view&path%5B%5D=1529
<p>This article focuses on how supply chain management strategies in the manufacturing industry might incorporate sustainability concepts. In order to create and manage supply chains that are ecologically sound, the article tries to establish models and helps in increasing. For businesses in the manufacturing sector who want to implement sustainable supply chain operations, the information given in this article can offer high degree of importance. The purpose of the study study is probably to supply manufacturing businesses practical advice and insights on how to develop and execute environmentally friendly supply chain management strategies while providing improved supply chain performance. Therefore, such type of study is essential to expanding the science of industrial engineering and creating more efficient control of supply chains in the manufacturing.</p>Amit Shishodia
Copyright (c) 2023 International Journal of Industrial Engineering and Design
2023-05-172023-05-178271210.37628/ijied.v8i2.1529Role of Automation in Manufacturing for Competitive Advantage, With Special Reference to Automotive Industry
https://mechanical.journalspub.info/index.php?journal=JIED&page=article&op=view&path%5B%5D=1521
<em><span>The present study attempts to analyze the response of manufacturers in designing production processes to handle customer demand for product variety, or models, especially in the automotive sector. In this context, the role of technology, especially the information technology (IT) and application of automation in manufacturing process controls with the integration of industrial software has been analyzed for bringing about improvements in energy efficiency, productivity, product quality, reduction in costs and wastage, reduction in human error, and boosting other performance indicators like faster response in processing of customer orders for delivery. The process control automation helps in analyzing and controlling the production operations to see whether the plant is operating as per set objectives. The human machine interface (HMI) embedded in the software helps in remote operation of equipment and thus is important for maintaining productivity and equipment uptime. Further, it helps in removal of bottlenecks in the system, automates batch- oriented manufacturing, and works on optimizing production and implementing quality assurance practices. Automation in process control helps in reduction of maintenance costs, improves equipment performance and reduces downtime. Since Robots have an important role in repetitive tasks where precision and timing are important for jobs execution, applications in automotive manufacturing like robotic vision, spot and arc welding, assembly line operations, painting and coating, machine tending and parts transfer, use of cobots, and material removals, cutting and trimming jobs have been highlighted and discussed. Also included is a case study on Hyundai Motor Corporation, where Hyundai’s production model is discussed. Under this system, production relies less on factory workers (human labour), and instead relies more on automation in manufacturing, besides making use of procured modular assemblies/subassemblies/components as contracted and received from its suppliers. Apart from mass production of certain models like SUVs, the company is planning to switch-over to multiple batch production system in a single production line. Further, Hyundai is implementing “Smart factory” concept by making use of digital data and ICT (information and communication technology) platform. Technologies for production processes include Smart tag system, and Automated Inspection protocol for advanced driver assistance systems (ADAS) besides implementing Virtual reality (VR) assisted design evaluation platform to review and to make changes to car design and structure before it enters production. With the help of automation software, automotive manufacturers are also implementing the concept of Just-in-sequence (JIS) production, which is different from Just-in-time (JIT) philosophy. Under this system, various parts needed for car assembly are delivered at the scheduled time and in the exact order that are required for assembly. The main advantage of JIS system is that it facilitates to carry out mixed-models manufacturing<strong>. </strong>A single assembly line can produce multiple product models</span></em>Anil Kumar Chojar
Copyright (c) 2023 International Journal of Industrial Engineering and Design
2023-05-152023-05-1582254510.37628/ijied.v8i2.1521A Review on Development and Exploration of Supply Chain Management
https://mechanical.journalspub.info/index.php?journal=JIED&page=article&op=view&path%5B%5D=1473
<p>Since its inception in the early 1980s, supply chain management (SCM) has become better understood. But certain fundamental SCM problems continue to be unaddressed. The majority of the research that has been done adopts one or more of the three views listed below: (1) creation of methods and tools for studying SCM and its elements/processes; (2) constructing solutions or responses to certain supply chain-related issues or difficulties; and/or (3) assessing how supply chain techniques and plans perform. Selected examples from the literature are mentioned to demonstrate the different types of study that have been done as each of these three perspectives is briefly addressed. There are a few prospective study directions given. Topics addressed include theory development and SCM operations and procedures.</p>Shweta Varshney
Copyright (c) 2022 International Journal of Industrial Engineering and Design
2022-11-182022-11-1882162410.37628/ijied.v8i1.1473