在建筑项目中实施3D打印技术的关键成功因素:学者和建筑从业者的观点

IF 3.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Construction Innovation-England Pub Date : 2023-08-11 DOI:10.1108/ci-04-2023-0060
Ruifan Chang, M. F. Antwi-Afari
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引用次数: 1

摘要

目的三维打印技术在建筑工程中的应用越来越受到研究人员和建筑从业者的关注。尽管已经探索了3D打印技术在项目生命周期的各个阶段的应用,但很少有研究确定关键成功因素(CSF)对在建筑项目中实施3D打印技术的相对重要性。为了填补这一研究空白,本研究旨在探讨学术界(即研究人员)和建筑从业者对在建筑项目中实施3D打印技术的CSF的看法。设计/方法/方法为此,对具有建筑项目3D打印技术知识和专业知识的参与者(即学者和建筑从业者)进行了问卷调查。使用平均得分排名、归一化和排名一致性分析对收集的数据进行分析,以确定CSF,并确定学术界和建筑从业者之间CSF排名的一致性。此外,还使用探索性因素分析来确定测量的CSF的关系和基本结构。结果通过对收集的数据进行秩和一致性分析,检索到11个用于实施3D打印技术的CSF(即17%的一致性),表明学术界和建筑从业者在CSF的排序上存在不同的一致性。此外,研究结果显示了CSFs的三个关键组成部分,包括“生产需求使能CSFs”、“优化施工工艺使能CSF”和“优化设计使能CSF,这不仅为其他研究人员提供了参考,而且提高了建筑从业者对在建筑项目中实施3D打印技术的实际效益的认识。具体而言,它将优化建筑生命周期流程,加强数字化转型,促进可持续建筑项目。
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Critical success factors for implementing 3D printing technology in construction projects: academics and construction practitioners’ perspectives
Purpose The application of three-dimensional (3D) printing technology in construction projects is of increasing interest to researchers and construction practitioners. Although the application of 3D printing technology at various stages of the project lifecycle has been explored, few studies have identified the relative importance of critical success factors (CSFs) for implementing 3D printing technology in construction projects. To address this research gap, this study aims to explore the academics (i.e. researchers) and construction practitioners’ perspectives on CSFs for implementing 3D printing technology in construction projects. Design/methodology/approach To do this, a questionnaire was administered to participants (i.e. academics and construction practitioners) with knowledge and expertise in 3D printing technology in construction projects. The collected data were analysed using mean score ranking, normalization and rank agreement analysis to identify CSFs and determine the consistency of the ranking of CSFs between academics and construction practitioners. In addition, exploratory factor analysis was used to identify the relationships and underlying constructs of the measured CSFs. Findings Through a rank agreement analysis of the collected data, 11 CSFs for implementing 3D printing technology were retrieved (i.e. 17% agreement), indicating a diverse agreement in the ranking of the CSFs between academics and construction practitioners. In addition, the results show three key components of CSFs including “production demand enabling CSFs”, “optimize the construction process enabling CSFs” and “optimized design enabling CSFs”. Originality/value This study highlights the feasibility of implementing the identified CSFs for 3D printing technology in construction projects, which not only serves as a reference for other researchers but also increases construction practitioners’ awareness of the practical benefits of implementing 3D printing technology in construction projects. Specifically, it would optimize the construction lifecycle processes, enhance digital transformation and promote sustainable construction projects.
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来源期刊
Construction Innovation-England
Construction Innovation-England CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
7.10
自引率
12.10%
发文量
71
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