Buildings

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Open AccessArticle

Construction Safety Management: Based on the Theoretical Approach of BIM and the Technology Acceptance Model

by Chen Yuan, Afaq Rafi Awan and Amir Khan

Buildings 2025, 15(19), 3444; https://doi.org/10.3390/buildings15193444 - 23 Sep 2025

The construction industry in Pakistan faces persistent challenges due to uncertainties such as behavioral intention, risk identification, and stakeholder perception, which often lead to significant losses in construction activities and human resources. This study aims to quantitatively evaluate these critical factors within the [...] Read more.

The construction industry in Pakistan faces persistent challenges due to uncertainties such as behavioral intention, risk identification, and stakeholder perception, which often lead to significant losses in construction activities and human resources. This study aims to quantitatively evaluate these critical factors within the theoretical framework of Building Information Modeling (BIM) and the Technology Acceptance Model (TAM). Specifically, key constructs—Behavioral Intention (BI), Hazard Identification (HI), and Stakeholder Perception (SP)—are analyzed to assess their influence on construction safety management practices. A structured questionnaire was distributed electronically to construction professionals across various ongoing projects in Pakistan. The questionnaire items were based on a five-point Likert scale, and reliability was confirmed with high Cronbach’s alpha values for BI (0.82), HI (0.92), and SP (0.91). To evaluate the relationships between constructs, descriptive statistics and multiple regression analysis were employed. The regression results showed strong model fit for BI and HI (R² = 0.945), and near-perfect fit for SP (R² = 0.998), demonstrating robust predictive power. Significant correlations were found among independent variables such as Perceived Usefulness (PU), Perceived Ease of Use (PEOU), Attitude Toward Use (ATU), and others. This study further identifies Trust (TR) and Organizational Culture (OC) as critical predictors of stakeholder perception in the BIM context. A conceptual framework was developed incorporating statistical parameters (e.g., p-values, R², t-stats) to categorize the effectiveness of BIM and TAM theoretical integration for safety risk management. This approach is novel in its use of TAM-based constructs to evaluate BIM-related safety outcomes in the Pakistani construction sector—a context where such empirical evidence is limited. The findings provide predictive insights into how behavioral, perceptual, and organizational variables influence construction safety performance, offering practical implications for BIM adoption and safety policy design. Full article

(This article belongs to the Special Issue Construction 4.0 Era: The Application of Building Information Modelling (BIM) and Digital Construction)

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Open AccessArticle

Progressive Collapse Resistance of Steel Frames with Reduced Beam Sections and Web Openings

by Mohammed Benzerara, Hamda Guedaoura, S. M. Anas, Yazid Hadidane, Nadia Gouider, Anfel Chaima Hadidane and Messaoud Saidani

Buildings 2025, 15(19), 3443; https://doi.org/10.3390/buildings15193443 - 23 Sep 2025

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