A failure mode, effects and criticality analysis-based method for formwork assessment and selection in building construction

IF 2.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY

International Journal of Building Pathology and Adaptation Pub Date : 2022-07-15 DOI:10.1108/ijbpa-01-2022-0007

S. Abu Dabous, Tareq Zadeh, F. Ibrahim

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Abstract

PurposeThis study aims at introducing a method based on the failure mode, effects and criticality analysis (FMECA) to aid in selecting the most suitable formwork system with the minimum overall cost.Design/methodology/approachThe research includes a review of the literature around formwork selection and analysis of data collected from the building construction industry to understand material failure modes. An FMECA-based model that estimates the total cost of a formwork system is developed by conducting a two-phased semi-structured interview and regression and statistical analyses. The model comprises material, manpower and failure mode costs. A case study of fifteen buildings is analysed using data collected from construction projects in the UAE to validate the model.FindingsResults obtained indicate an average accuracy of 89% in predicting the total formwork cost using the proposed method. Moreover, results show that the costs incurred by failure modes account for 11% of the total cost on average.Research limitations/implicationsThe analysis is limited to direct costs and costs associated with risks; other costs and risk factors are excluded. The proposed framework serves as a guide to construction project managers to enhance decision-making by addressing the indirect cost of failure modes.Originality/valueThe research proposes a novel formwork system selection method that improves upon the subjective conventional selection process by incorporating the risks and uncertainties associated with the failure modes of formwork systems into the decision-making process.

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一种基于失效模式、影响和关键性分析的建筑施工模板评估与选择方法

目的本研究旨在引入一种基于故障模式、影响和关键性分析（FMECA）的方法，以帮助以最低的总体成本选择最合适的模板系统。设计/方法论/方法研究包括对模板选择相关文献的回顾，以及对从建筑施工行业收集的数据的分析，以了解材料失效模式。通过进行两阶段半结构化访谈、回归和统计分析，开发了一个基于FMECA的模型，用于估计模板系统的总成本。该模型包括材料、人力和故障模式成本。使用从阿联酋建筑项目收集的数据对15栋建筑的案例研究进行了分析，以验证该模型。结果表明，使用所提出的方法预测模板总成本的平均准确率为89%。此外，结果表明，故障模式产生的成本平均占总成本的11%。研究局限性/含义分析仅限于直接成本和与风险相关的成本；排除了其他成本和风险因素。拟议的框架为建筑项目经理提供了指导，以通过解决故障模式的间接成本来加强决策。独创性/价值该研究提出了一种新的模板系统选择方法，通过将与模板系统故障模式相关的风险和不确定性纳入决策过程，改进了主观的传统选择过程。

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来源期刊

International Journal of Building Pathology and Adaptation CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

4.80

自引率

18.20%

发文量

期刊介绍： The International Journal of Building Pathology and Adaptation publishes findings on contemporary and original research towards sustaining, maintaining and managing existing buildings. The journal provides an interdisciplinary approach to the study of buildings, their performance and adaptation in order to develop appropriate technical and management solutions. This requires an holistic understanding of the complex interactions between the materials, components, occupants, design and environment, demanding the application and development of methodologies for diagnosis, prognosis and treatment in this multidisciplinary area. With rapid technological developments, a changing climate and more extreme weather, coupled with developing societal demands, the challenges to the professions responsible are complex and varied; solutions need to be rigorously researched and tested to navigate the dynamic context in which today''s buildings are to be sustained. Within this context, the scope and coverage of the journal incorporates the following indicative topics: • Behavioural and human responses • Building defects and prognosis • Building adaptation and retrofit • Building conservation and restoration • Building Information Modelling (BIM) • Building and planning regulations and legislation • Building technology • Conflict avoidance, management and disputes resolution • Digital information and communication technologies • Education and training • Environmental performance • Energy management • Health, safety and welfare issues • Healthy enclosures • Innovations and innovative technologies • Law and practice of dilapidation • Maintenance and refurbishment • Materials testing • Policy formulation and development • Project management • Resilience • Structural considerations • Surveying methodologies and techniques • Sustainability and climate change • Valuation and financial investment