Construction supply chain management: A systematic literature review and future development

Liao, Longhui; Yang, Chuan; Quan, Lirong

doi:10.1016/j.jclepro.2022.135230

Cited by 20 publications

(12 citation statements)

References 133 publications

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“…As for the construction SCR, Liao et al [37] established a framework for achieving resilience in the construction supply chain in three dimensions: organization, management, and technology. Chen et al [38] investigated the resilience of construction supply chains under supply-demand uncertainty, considering uncertainties in supplier capacity and material demand.…”

Section: Literature Reviewmentioning

confidence: 99%

Study on Resilience Factors and Enhancement Strategies in Prefabricated Building Supply Chains

Cheng,

Zhou,

Zhang

et al. 2024

Buildings

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Prefabricated building holds promise for quality, efficiency, and sustainability when compared to traditional techniques. However, realizing prefabricated building work hinges on strengthening supply chain resilience. This research assesses interdependent risks undermining prefab network continuity during disruption. Questionnaire data from industry experts informed a structural equation model quantifying pathways between component production, construction, information, and other uncertainties. Findings confirm that project delays can be traced to manufacturing and on-site risks, with information gaps broadly propagating impacts. Meanwhile, organizational risks have an insignificant influence, suggesting partnership networks readily reconfigure around operational contingencies. Robust information infrastructures and coordination, therefore, offer crucial leverage. Accordingly, a multidimensional resilience enhancement strategy is formulated, prioritizing supply chain transparency, digital integration, inventory buffering, contingencies planning, and transportation flexibility. Our mixed-methods approach advances the construction literature by demonstrating the applicability of structural equation modeling for diagnostic resilience analytics. Industry leaders also gain actionable, evidence-based guidance on strategic investments to stabilize project flows. This dual theoretical and practical contribution underscores the versatility of tailored statistical assessments in furthering construction innovation objectives within complex, uncertain environments.

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Section: Literature Reviewmentioning

confidence: 99%

Study on Resilience Factors and Enhancement Strategies in Prefabricated Building Supply Chains

Cheng,

Zhou,

Zhang

et al. 2024

Buildings

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“…Yet, the dormant latent vulnerabilities could be eliminated (Zainal Abidin and Ingirige, 2018). Interdisciplinary collaboration is required best to use digitalization in labor-intensive industries such as construction (Liao et al , 2023). Likewise, the uncertainties that emerge in the energy sector could be tackled through information sharing and backup resources (Emenike and Falcone, 2020).…”

Section: Literature Reviewmentioning

confidence: 99%

A novel coexistent resilience index to evaluate the supply chain resilience of industries using fuzzy logic

Narassima,

Gedam,

Gunasekaran

et al. 2023

SCM

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Purpose This study aims to explore supply chain resilience (SCR) and provides a unique resilience index. The work measures the resilience status of 37 organizations across 22 industries and provides insight into accessing the supply chain (SC) vulnerability in an uncertain environment. Design/methodology/approach This study involves measuring the resilience status of 37 organizations across 22 industries based on a subjective decision-making approach using fuzzy logic. Experts from industries rated the importance and level of implementation of 33 attributes of SCR, which are used to develop a fuzzy index of implementation that explains the resilience status of organizations. Findings A novel coexistent resilience index is computed based on mutualism to exhibit the proportion of contribution or learning of each attribute of an organization in an industry. The research will enhance the response plans and formation of strategic alliances for mutual coexistence by industry. Research limitations/implications Evidence-based interpretations and suggestions are provided for each industry to enhance resilience through coexistence. Originality/value The work uniquely contributes to academic literature and SC strategy. The novel coexistent resilience index is computed based on mutualism, facilitating researchers to access SC resiliency.

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“…Using this encapsulation tool, we can review and analyze the vast corpus of journal articles on engineering and design for sustainable construction, ensuring a rigorous and data-driven approach to the research. Applying Bibliometrix R facilitates the quantitative and qualitative assessment of key indicators, including publication trends, authorship patterns, influential papers, and thematic shifts in research focus [10,11]. This allows us to gain insights into the evolution of sustainable construction as an academic discipline over the past two decades, capturing pivotal milestones and influential works that have shaped the field's development.…”

Section: Introductionmentioning

confidence: 99%

Engineering and Design for Sustainable Construction: A Bibliometric Analysis of Current Status and Future Trends

Alam Bhuiyan,

Hammad

2024

Sustainability

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The purpose of this study is to investigate the state of engineering and design research for sustainable construction. It aims to report the current status and future trends within this dynamic field, combining econometric and content analysis using the Bibliometrix R encapsulation tool. This study reviewed academic journals using bibliometric analysis. We selected articles by searching the Scopus database. Primarily relevant articles were identified and screened. The dataset comprised a substantial compilation of 731 journal articles from 278 sources published between January 2000 and June 2023, which formed the basis of the in-depth analysis. The importance of sustainable construction is gradually gaining more attention, and engineering and design are the significant phases of construction. This research identifies that sustainable construction is nothing in isolation; instead, it warrants the holistic integration of multiple factors, as illustrated in the Sankey diagram. Recycling, durability, life cycle assessment, innovative materials, and energy efficiency have emerged as central themes, reflecting global concern to enhance sustainability, reduce environmental impacts, and optimize resource utilization. This study is a valuable resource for researchers, practitioners, and policymakers, offering guidelines for collaborative efforts towards sustainable development. This paper paves the way for interdisciplinary cooperation and strategic alignment among diverse stakeholders, promoting innovative approaches to sustainable construction.

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Construction supply chain management: A systematic literature review and future development

Cited by 20 publications

References 133 publications

Study on Resilience Factors and Enhancement Strategies in Prefabricated Building Supply Chains

Study on Resilience Factors and Enhancement Strategies in Prefabricated Building Supply Chains

A novel coexistent resilience index to evaluate the supply chain resilience of industries using fuzzy logic

Engineering and Design for Sustainable Construction: A Bibliometric Analysis of Current Status and Future Trends

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