Improving agility and resilience of automotive spares supply chain: The additive manufacturing enabled truck model

The global supply chain disruption by the COVID-19 pandemic is difficult, if not impossible, to estimate as over 94% of the top 1000 fortune companies were badly affected. The need for building resilient supply chains to mitigate the effect of such disruptions is rising rapidly than ever before acro...

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Bibliographic Details
Published in:Socio-economic planning sciences 2023-02, Vol.85, p.101401, Article 101401
Main Authors: Basu R, Jothi, Abdulrahman, Muhammad D., Yuvaraj, M.
Format: Article
Language:English
Subjects:
Additive manufacturing
Automotive spares
Online platform
Routing and Scheduling
Supply chain resilience
Viable supply chain
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Summary:The global supply chain disruption by the COVID-19 pandemic is difficult, if not impossible, to estimate as over 94% of the top 1000 fortune companies were badly affected. The need for building resilient supply chains to mitigate the effect of such disruptions is rising rapidly than ever before across the global business spectrum. Building resilience in the automotive spare parts (ASPs) supply chain is critically important as any disruption to automotive spares supply chain will affect the operations of the logistics sector, the backbone of global supply chains. This research work contributes to improving the resilience of the automotive spare parts supply chain by proposing a Viable Supply Chain (VSC) framework design that incorporates Additive Manufacturing (AM) enabled trucks in the automotive spares supply chain network. Based on the proposed model, conceptual case models are developed and tested with proposed AM enabled truck manufacturing closer to end customer. A heuristic approach called shortest time heuristic is also proposed to solve the routing and scheduling of an AM enabled truck to deliver customers’ orders of the spare parts through an online platform. Importantly, the study demonstrate how additive manufacturing can help the ASPs industry to switch from the existing practice of make-to-stock to a more efficient inventory management and cost saving make-to-order model while also achieving resilience and sustainability in by providing a source of spares support for discontinued models of vehicles. •Resilience and agility of automotive spare parts supply chain based on Additive Manufacturing enabled trucks.•Utilizing shortest time heuristic approach in routing and scheduling of AM enabled truck in delivering online orders.•Enabling switch from push- to pull-oriented parts inventory management for operational vehicles.•Provides insights to academics, practitioners, and policymakers.
ISSN:0038-0121
1873-6041
DOI:10.1016/j.seps.2022.101401