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Bakens, W (1997) International trends in research and technology development. Building Research & Information, 25(06), 335–7.

Bowen, P, Akintoye, A, Pearl, R and Edwards, P J (2007) Ethical behaviour in the South African construction industry. Construction Management and Economics, 25(06), 631–48.

Bubshait, A A and Tahir, B M (1997) Effect of silica fume on the concrete-steel bond. Building Research & Information, 25(06), 365–9.

Chan, C T W (2007) Fuzzy procurement selection model for construction projects. Construction Management and Economics, 25(06), 611–8.

Delgado-Hernandez, D J, Bampton, K E and Aspinwall, E (2007) Quality function deployment in construction. Construction Management and Economics, 25(06), 597–609.

Egbu, C O (1997) Refurbishment management: challenges and opportunities. Building Research & Information, 25(06), 338–47.

Enshassi, A (1997) Construction safety issues in Gaza Strip. Building Research & Information, 25(06), 370–3.

Galbraith, G H, McLean, R C and Kelly, D (1997) Moisture permeability measurements under varying barometric pressure. Building Research & Information, 25(06), 348–53.

Goodier, C and Gibb, A (2007) Future opportunities for offsite in the UK. Construction Management and Economics, 25(06), 585–95.

Green, S D and Liu, A M M (2007) Theory and practice in value management: a reply to Ellis et al. (2005). Construction Management and Economics, 25(06), 649–59.

Holt, G D (1997) Classifying construction contractors. Building Research & Information, 25(06), 374–82.

Hu, X and Liu, C (2018) Measuring efficiency, effectiveness and overall performance in the Chinese construction industry. Engineering, Construction and Architectural Management, 25(06), 780–97.

Imriyas, K, Pheng, L S and Teo, E A-L (2007) A framework for computing workers' compensation insurance premiums in construction. Construction Management and Economics, 25(06), 563–84.

Malmberg, F (2007) Introduction of a new form of quote evaluation: a case study in southern Sweden. Construction Management and Economics, 25(06), 661–9.

Modak, J P, Sohoni, V V and Aware, H V (1997) Manually powered manufacture of keyed bricks. Building Research & Information, 25(06), 354–64.

Newaz, M T, Davis, P R, Jefferies, M and Pillay, M (2018) Developing a safety climate factor model in construction research and practice. Engineering, Construction and Architectural Management, 25(06), 738–57.

• Type: Journal Article
• Keywords: Management; Construction; Construction site; Construction safety;
• ISBN/ISSN: 0969-9988
• URL: https://doi.org/10.1108/ECAM-02-2017-0038
• Abstract:
  Safety climate and its impact on safety performance is well established; however, researchers in this field suggest that the absence of a common assessment framework is a reflection of the state of development of this concept. The purpose of this paper is to propose a five-factor model that can be used to diagnose and measure safety climate in construction safety research and practice. A systematic review was adopted, and following Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines, 574 articles were selected at the start of the study based on a developed review protocol for investigating safety climate factors. While examining the factor analysis of different studies, data reliability and data validity of the individual research findings were considered and frequency of factors uploaded was used to determine the significance as a quantitative measure to develop the ranking of safety climate factors. The review identified that, from the established measures of safety climate in construction, there is little uniformity on factor importance. However, management commitment safety system role of the supervisor; workers’ involvement and group safety climate were found to be the most common across the studies reviewed. It is proposed these factors are used to inform a five-factor model for investigating safety climate in the construction industry. The findings of this study will motivate researchers and practitioners in safety to use the five-factor safety climate model presented in this paper and test it to develop a common factor structure for the construction industry. The fact that the model is comprised of five factors makes it easier to be used and implemented by small-to medium-sized construction companies, therefore enhancing its potential use.

Oke, A E (2018) Bonding capability of Nigerian contracting firms. Engineering, Construction and Architectural Management, 25(06), 707–20.

Skitmore, M and Smyth, H (2007) Pricing construction work: a marketing viewpoint. Construction Management and Economics, 25(06), 619–30.

Tripathi, K K and Jha, K N (2018) Application of fuzzy preference relation for evaluating success factors of construction organisations. Engineering, Construction and Architectural Management, 25(06), 758–79.

Umeokafor, N (2018) An investigation into public and private clients’ attitudes, commitment and impact on construction health and safety in Nigeria. Engineering, Construction and Architectural Management, 25(06), 798–815.

Yan, X and Kim, Y (2018) A conceptual framework of ITSMCA for a building collapse accident. Engineering, Construction and Architectural Management, 25(06), 721–37.

Yang, R J, Jayasuriya, S, Gunarathna, C, Arashpour, M, Xue, X and Zhang, G (2018) The evolution of stakeholder management practices in Australian mega construction projects. Engineering, Construction and Architectural Management, 25(06), 690–706.