Building manufacturing resilience for sustainability - a dynamic capabilities perspective
Doktorsavhandling, 2024

In the contemporary Industry 4.0 era, manufacturing companies are faced with a simultaneous transition towards digital and sustainable transformations. Furthermore, many organisations have prioritised ‘resilience’ as part of their transformation agendas due to complexities resulting from the Covid-19 pandemic. Digitalisation, sustainability, and resilience thus form a ‘triptych’ in the manufacturing sector. This confluence includes multifaceted dimensions that are challenging for manufacturing organisations and their associated value chains to fully understand and operationalise. Thus, it is necessary to understand these complexities to exploit the related benefits and successfully address the pressing sustainability concerns currently faced by manufacturing companies. This thesis aims to provide manufacturing companies with concrete mechanisms to strengthen their resilience and understand its implications for sustainability. With this aim, and with sustainability as the key driver of building manufacturing resilience, the thesis focuses on: (1) conceptualising resilience and sustainability in the manufacturing context; (2) identifying enablers of manufacturing resilience for sustainability; and (3) developing assessment methods to build manufacturing resilience that favours sustainability.

Six studies were carried out over the last five years using a multiple-case study design and a mixed-methods approach. Data was triangulated in the form of systematic literature reviews, interviews, workshops and surveys. The thesis derived three main outcomes: (i) the relationships (synergies, conflicts and underlying concepts) between resilience and sustainability in manufacturing (conceptualisation); (ii) key enabling factors for building manufacturing resilience [risk management, dynamic capabilities that need to be developed in a stage-wise temporal manner for resilience (anticipation, coping and adaptation phases), and how digitalisation in Industry 4.0 can support resilient and sustainable manufacturing]; (iii) an IDEF0 resilience model to structure and visualise the interconnectedness of and interdependencies between the enabling resilience factors. Also, a quantitatively validated measurement instrument – a resilience compass – to assess how manufacturing companies should deal with disruptions (operationalisation of resilience).

The theoretical contribution of this research is that it advances knowledge at the convergence of resilience engineering, dynamic capabilities and sustainability fields, especially in the smart manufacturing context. Practitioners can leverage the IDEF0 resilience model and the resilience compass to gain a comprehensive and systemic understanding of the various essential factors and capabilities across the temporal stages of resilience. This facilitates the formulation of tailored strategies to effectively address risks and disruptions and, ultimately, bolsters the resilience of both manufacturing operations and their value chains.

resilience

manufacturing

dynamic capabilities

Industry 4.0.

sustainability

value chains

Virtual Development Laboratory
Opponent: Dr. Jagjit Singh Srai, Institute for Manufacturing, University of Cambridge

Författare

Arpita Chari

Chalmers, Industri- och materialvetenskap, Produktionssystem

Dynamic capabilities for circular manufacturing supply chains-Exploring the role of Industry 4.0 and resilience

Business Strategy and the Environment,;Vol. 31(2022)p. 2500-2517

Artikel i vetenskaplig tidskrift

The intersection of industrial resilience and sustainability in manufacturing supply chains

Proceedings of the 28th EurOMA Conference: Managing the “New Normal”: The Future of Operations and Supply Chain Management in Unprecedented Times. Sussex.,;(2021)

Paper i proceeding

Swedish manufacturing practices towards a sustainability transition in industry 4.0: A resilience perspective

Proceedings of the ASME 2021 16th International Manufacturing Science and Engineering Conference, MSEC 2021,;Vol. 1(2021)

Paper i proceeding

Chari, A., Despeisse, M., Bokrantz, J., Johansson, B., Morioka, S., Gohr, C., and Stahre, J. Dynamic capabilities for manufacturing resilience – a compass and industrial applications.

In today's Industry 4.0 era, manufacturing companies face a dual challenge: transitioning to digitalization and sustainability while also prioritizing resilience in the wake of the Covid-19 pandemic. This convergence of digitalization, sustainability, and resilience presents complex challenges, demanding a deeper understanding to unlock benefits and address sustainability concerns. This thesis aims to equip manufacturing companies with practical mechanisms to strengthen their resilience and understand its implications for sustainability. Through six studies conducted over the past five years, valuable insights have been derived. The research highlights the intricate relationships between resilience and sustainability, identifies critical enablers for manufacturing resilience, and provides a structured model and measurement instrument to navigate disruptions effectively. The significance of this research lies in advancing knowledge at the intersection of resilience engineering, dynamic capabilities, and sustainability in smart manufacturing. Practitioners can leverage the insights and tools provided to develop tailored strategies, mitigate risks, and enhance the resilience of manufacturing operations and value chains.

Twinning for Industrial Sustainability (TRUST)

Europeiska kommissionen (EU) (EC/H2020/810764), 2018-10-01 -- 2022-06-30.

Hållbarhets analys av Produktion2030:s projekt

VINNOVA (2019-05575), 2019-12-01 -- 2020-07-31.

Digitala Stambanan Produktion

VINNOVA (2021-02421), 2021-07-01 -- 2024-07-01.

RE4DY: European “data as a pRoduct” Value Ecosystems for resilient factory 4 .0 Product and proDuction continuitY and sustainability

Europeiska kommissionen (EU) (101058384), 2022-06-01 -- 2025-06-30.

Ämneskategorier

Produktionsteknik, arbetsvetenskap och ergonomi

Ekonomi och näringsliv

Drivkrafter

Hållbar utveckling

Styrkeområden

Produktion

ISBN

978-91-8103-011-2

Doktorsavhandlingar vid Chalmers tekniska högskola. Ny serie: 5469

Utgivare

Chalmers

Virtual Development Laboratory

Online

Opponent: Dr. Jagjit Singh Srai, Institute for Manufacturing, University of Cambridge

Mer information

Senast uppdaterat

2024-05-03