Will you stick to a high-quality collecting standard? order fulfillment vs. limited supply in diseconomy-cost-mattered remanufacturing operations
Will you stick to a high-quality collecting standard? order fulfillment vs. limited supply in diseconomy-cost-mattered remanufacturing operations
Consider a remanufacturing system consisting of a brand, a new component supplier (Supplier N), and a remanufactured component supplier (Supplier R). The brand priorly purchases remanufactured components and then assembles them into final products, while Supplier R collects the end-of-life products with random residual quality and then produces them to be “as good as new” components at a diseconomy cost based on the residual quality. Supplier R has the option to provide order fulfillment commitment before production (Scenario O), or, do not provide such a commitment, reserving the right to limit the proportion of the orders to save production costs although it may drive the brand to emergently purchase the new components (Scenario L). Specifically, in Scenario L, Supplier R can set a strict residual quality standard which saves the remanufacturing cost and constrains the brand’s order quantity. We reveal that constraining the brand’s order quantity will not be the optimal choice for Supplier R, because the overreliance on the limited-supply threat will distort Supplier R’s wholesale price decision, resulting in significant profit loss. However, the supply chain system can perform better with the quantity constraint, because it concentrates the channel power in the hands of a single decision maker, which enables the decisions made more closely to the first-best level.
Zeng, Fanzhuo
f1f8b7f6-b618-46fd-88fc-a08584249438
Niu, Baozhuang
57848a01-43fe-4355-9ab1-31be47bad270
Qi, Zhiyuan
7b42e697-dd57-4c7a-b4a9-5a238fe8d7b7
Zhang, Jianhua
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Jin, Yong
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Li, Qiyang
81a60c86-a5ff-47a6-8787-ddaa4530dfe9
4 September 2023
Zeng, Fanzhuo
f1f8b7f6-b618-46fd-88fc-a08584249438
Niu, Baozhuang
57848a01-43fe-4355-9ab1-31be47bad270
Qi, Zhiyuan
7b42e697-dd57-4c7a-b4a9-5a238fe8d7b7
Zhang, Jianhua
c3c9876a-8135-4b3d-872e-7081ae65e329
Jin, Yong
8670c787-58e9-4c5e-8189-aa8a244213c3
Li, Qiyang
81a60c86-a5ff-47a6-8787-ddaa4530dfe9
Zeng, Fanzhuo, Niu, Baozhuang, Qi, Zhiyuan, Zhang, Jianhua, Jin, Yong and Li, Qiyang
(2023)
Will you stick to a high-quality collecting standard? order fulfillment vs. limited supply in diseconomy-cost-mattered remanufacturing operations.
Computers & Industrial Engineering, 184.
(doi:10.1016/j.cie.2023.109569).
Abstract
Consider a remanufacturing system consisting of a brand, a new component supplier (Supplier N), and a remanufactured component supplier (Supplier R). The brand priorly purchases remanufactured components and then assembles them into final products, while Supplier R collects the end-of-life products with random residual quality and then produces them to be “as good as new” components at a diseconomy cost based on the residual quality. Supplier R has the option to provide order fulfillment commitment before production (Scenario O), or, do not provide such a commitment, reserving the right to limit the proportion of the orders to save production costs although it may drive the brand to emergently purchase the new components (Scenario L). Specifically, in Scenario L, Supplier R can set a strict residual quality standard which saves the remanufacturing cost and constrains the brand’s order quantity. We reveal that constraining the brand’s order quantity will not be the optimal choice for Supplier R, because the overreliance on the limited-supply threat will distort Supplier R’s wholesale price decision, resulting in significant profit loss. However, the supply chain system can perform better with the quantity constraint, because it concentrates the channel power in the hands of a single decision maker, which enables the decisions made more closely to the first-best level.
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e-pub ahead of print date: 29 August 2023
Published date: 4 September 2023
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Local EPrints ID: 499519
URI: http://eprints.soton.ac.uk/id/eprint/499519
ISSN: 0360-8352
PURE UUID: bf1749f1-90a9-4ea6-acf0-feb11f507632
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Date deposited: 24 Mar 2025 17:33
Last modified: 24 Mar 2025 18:06
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Author:
Fanzhuo Zeng
Author:
Baozhuang Niu
Author:
Zhiyuan Qi
Author:
Jianhua Zhang
Author:
Yong Jin
Author:
Qiyang Li
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