Investigating the collective impact of postponement, scrap, and external suppliers on multiproduct replenishing decision

IF 1.6 3区 工程技术 Q4 ENGINEERING, INDUSTRIAL
Yuan-Shyi P. Chiu, Zhongsheng Zhao, Fan-Yun Pai, Tiffany Chiu
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引用次数: 1

Abstract

This study examines the collective impact of postponement, scrap, and subcontracting standard components on the multiproduct replenishing decisions. Rapid response, desirable quality, and various goods guide the client’s demands in today’s competitive market. Therefore, many manufacturing firms search for alternative fabrication and outsourcing strategies during the production planning stage to satisfy the client’s expectations, minimize fabrication-inventory costs, and smoothen machine utilization. To effectively help producers meet today's client's needs and enhance their competitive advantage, we develop a two-stage multiproduct replenishing system incorporating scraps, standard parts subcontracting, commonality, and delayed differentiation. To reduce the production uptime, stage one has a hybrid fabrication process for the common components (i.e., a partial outsourcing strategy), and stage two manufactures the finished multiproduct. In-house fabrication processes in both stages are imperfect; a screening process detects and removes scraps to maintain the finished batch quality. We determine the cost-minimized operating cycle. The findings reveal the collective impact of postponement, scrap, and external suppliers on this multi-product replenishment problem and can be used to facilitate production planning and decision-making.
调查延迟,报废和外部供应商对多产品补充决策的总体影响
本研究考察了延期、报废和分包标准部件对多产品补充决策的集体影响。快速的反应,理想的质量,和各种各样的商品引导客户的需求在当今竞争激烈的市场。因此,许多制造公司在生产计划阶段寻找替代制造和外包策略,以满足客户的期望,最大限度地减少制造库存成本,并使机器利用率平稳。为了有效地帮助生产商满足当今客户的需求并增强他们的竞争优势,我们开发了一个包含废料、标准件分包、通用性和延迟差异化的两阶段多产品补充系统。为了减少生产正常运行时间,第一阶段对通用组件采用混合制造工艺(即部分外包策略),第二阶段制造成品。这两个阶段的内部制造工艺都不完美;筛选过程检测并去除废料,以保持成品批次的质量。我们确定了成本最小化的运营周期。调查结果揭示了延迟、报废和外部供应商对这种多产品补充问题的集体影响,并可用于促进生产计划和决策。
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
CiteScore
5.70
自引率
9.10%
发文量
35
审稿时长
20 weeks
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