Bottleneck Identification through Simulation Modelling: A Case of Solid Tire Manufacturing Sector

Edirisinghe Arachchige Dona Dilesha Divyanjali Edirisinghe, Edirisinghe Arachchige Chaminda Prasanna Karunarathne
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Abstract

Abstract Businesses are constantly making productivity improvements to survive in the highly competitive marketplace. Bottlenecks have been identified as one of the main factors limiting the system performance of manufacturing firms. Thus, identifying bottlenecks in the production process is extremely important to increase productivity. Considering its importance, this case study was designed to identify causes for not meeting the tire target and determine the implications of bottlenecks in the tire manufacturing process. For this purpose, simulation analysis was carried out for the solid resilience tire-building process. Through the investigation, the cushion layer-building process was identified as the bottleneck. To validate the identified limitation, Line balancing and Pareto analysis were conducted. Analysis results confirmed the presence of a bottleneck in the cushion layer-building process. Further, to identify the root causes for not reaching the maximum tire target, Cause-and-Effect analysis and 5WHY analysis were adopted. The study revealed that inadequately maintained outdated machines and frequent power failures are the leading causes of not meeting the maximum production. By answering these issues, the target production can be increased, and the results showed the opportunity to increase the efficiency of the manufacturing process by more than 95%.
通过仿真建模识别瓶颈:实心轮胎制造业案例
摘要 企业需要不断提高生产率,才能在竞争激烈的市场中生存下来。瓶颈被认为是限制制造企业系统性能的主要因素之一。因此,找出生产流程中的瓶颈对提高生产率极为重要。考虑到其重要性,本案例研究旨在找出轮胎生产未能达到目标的原因,并确定轮胎生产过程中瓶颈的影响。为此,对实心弹性轮胎制造过程进行了模拟分析。通过调查,确定缓冲层制造过程是瓶颈。为验证所确定的限制因素,进行了生产线平衡和帕累托分析。分析结果证实了缓冲层构建过程中存在瓶颈。此外,为了找出无法达到最大轮胎目标的根本原因,还采用了因果分析和 5WHY 分析法。研究结果表明,维护不当的过时机器和频繁的电力故障是无法达到最高产量的主要原因。通过解决这些问题,可以提高目标产量,结果表明有机会将生产过程的效率提高 95% 以上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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