Approach to product modularity based on transmission network model of failure modes for remanufacturing

被引：0

作者：

Cheng X. ^{[1
]}

Zhou J. ^{[1
]}

You M. ^{[1
]}

Li J. ^{[1
]}

机构：

[1] Key Laboratory of Conveyance and Equipment, Ministry of Education, East China Jiaotong University, Nanchang

来源：

Jisuanji Jicheng Zhizao Xitong/Computer Integrated Manufacturing Systems, CIMS | 2023年 / 29卷 / 03期

关键词：

failure mode; hierarchical structure; product modularization; remanufacturing; transmission network model;

D O I：

10.13196/j.cims.2023.03.019

中图分类号：

学科分类号：

摘要：

Green remanufacturing is a key technology to support the recycling economy, and product modularization can effectively promote remanufacturing and improve product reusability. For product modularization of green remanufacturing, an approach to product modularity based on transmission network model of failure modes for remanufacturing was proposed. The failure mode of product parts was analyzed, and the transmission network model of failure mode-recycling mode was constructed. The fuzzy relation matrix between different levels was constructed by using fuzzy set theory, and the recycling mode of each part was analyzed through layer by layer mapping. The comprehensive relationships between components with function, structure as well as remanufacturing indexes were analyzed, which considered the information incompleteness and fuzziness of remanufacturability index at the end of product life, and the comprehensive correlation matrix was constructed. Based on the relationship between components with function and structure, the different clustering schemes were acquired by clustering algorithm based on transitive closure, and then the hierarchical structure of product modularity was built. The Minimum Description Length (MDL) degree of module independence and remanufacturing, were introduced to realize the reasonable division of modules. A case of permanent magnet retarder starter was provided to illustrate the analysis process on the proposed method. © 2023 CIMS. All rights reserved.

引用

页码：896 / 909

页数：13

共 25 条

[1] XU Binshi, Theory and technology of equipment remanufac-turing engineering [M], (2007)
[2] GU Xinjian, YANCi Qinghai, Product modularization is the only way for China to become a manufacturing power [J], China Mechanical Engineering, 29, 9, pp. 1127-1133, (2018)
[3] SONEGO M, ECHEVESTE M E S, DEBARBA H G., The role of modularity in sustainable design
[4] A systematic review [J], Journal of Cleaner Production, 176, pp. 196-209, (2018)
[5] GU P, HASHEMI AN M, SOSALE S, Et al., An integrated modular design methodology for life-cycle engineering [J], CIRP Annals, 46, l, pp. 71-74, (1997)
[6] YAN J H, FENG C H., Sustainable design-oriented product modularity combined with 6R concept: A case study of rotor laboratory bench, Clean Technologies & Environmental Policy, 16, pp. 95-109, (2014)
[7] SAKUNDAR1N1 N, TAHA Z, GHAZILLA R A R, Et al., A methodology for optimizing modular design considering product end of life strategies, International Journal of Precision Engineering and Manufacturing, 16, pp. 2359-2367, (2015)
[8] CHENG Q, GUO Y, LIU Z, Et al., A new modularization method of heavy-duty machine tool for green remanufacturing [J], Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 232, 23, pp. 4237-4254, (2018)
[9] KIM S, MOON S K., Eco-modular product architecture identification and assessment for product recovery, Journal of Intelligent Manufacturing, 30, pp. 383-403, (2019)
[10] TANG Tao, LIU Zhifeng, LIU Guangfu, Et al., Research of the methodology of green modular design, Chinese Journal of Mechanical Engineering, 39, 11, pp. 149-154, (2003)

← 1 2 3 →