Application of SPC and FMEA Methods to Reduce the Level of Hollow Product Defects

Spektrum Industri Jurnal Ilmiah Pengetahuan dan Penerapan Teknik Industri Pub Date : 2022-06-28 DOI:10.24014/jti.v8i1.16681

C. Bangun

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引用次数: 4

Abstract

PT. Surya Baja Pipa Indonesia (SBPI) is a manufacturing company that produces hollow and pipe from rolled iron plate. The production data showed that during January up to October 2021 there were still defects products with the percentage greater than 5%, the specified tolerance limit for defects. In order to maintain quality and increase production efficiency, PT. SBPI strives to reduce the defect rate. This study aims to reduce the level of defect by using Statistical Process Control methods and the Failure Mode and Effects Analysis (FMEA) method to analyze the level of the worst defects by finding the highest damage value Risk Priority Number (RPN). Histogram showed that the biggest defect occurs in welding (7,51%). Analysis using Fishbone diagram found that the welding defect mostly occur due to human factor/workers, machines, methods, materials, and the environment. The result of FMEA method analysis showed machine setting had the highest RPN and became the first priority to solve. It happened because there is no SOP yet that contains definite engine parameters, such as engine speed and voltage. Based on these results, this study suggests companies to prepare SOPs to be a guide for operators at work.

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SPC和FMEA方法在降低空心产品缺陷水平中的应用

PT. Surya Baja Pipa Indonesia (SBPI)是一家生产铁板空心管的制造公司。生产数据显示，在2021年1月至10月期间，仍有缺陷产品，其百分比大于规定的缺陷公差限值5%。为了保持质量和提高生产效率，PT. SBPI努力降低不良率。本研究旨在通过统计过程控制方法和失效模式与影响分析(FMEA)方法，通过寻找最高损伤值来分析最严重缺陷的级别。直方图显示焊接缺陷最大(7.51%)。利用鱼骨图分析发现，焊接缺陷主要是由人为因素/工人、机器、方法、材料和环境造成的。FMEA方法分析结果表明，机床设置的RPN最高，是优先解决的问题。发生这种情况是因为还没有SOP包含明确的发动机参数，如发动机转速和电压。基于这些结果，本研究建议公司制定标准操作程序，作为操作人员工作的指南。

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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来源期刊

Spektrum Industri Jurnal Ilmiah Pengetahuan dan Penerapan Teknik Industri

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审稿时长

12 weeks