ARCOM

Search or browse again.

Click on the titles below to expand the information about each abstract.
Viewing 9 results ...

Aka, A, Isah, A D, Eze, C J and Timileyin, O (2019) Application of lean manufacturing tools and techniques for waste reduction in Nigerian bricks production process. Engineering, Construction and Architectural Management, 27(03), 658–79.

Andary, E G, Abi Shdid, C, Chowdhury, A and Ahmad, I (2019) Integrated project delivery implementation framework for water and wastewater treatment plant projects. Engineering, Construction and Architectural Management, 27(03), 609–33.

Golizadeh, H, Hosseini, M R, Martek, I, Edwards, D, Gheisari, M, Banihashemi, S and Zhang, J (2019) Scientometric analysis of research on “remotely piloted aircraft”. Engineering, Construction and Architectural Management, 27(03), 634–57.

Gravina da Rocha, C, El Ghoz, H B and Jr Guadanhim, S (2019) A model for implementing product modularity in buildings design. Engineering, Construction and Architectural Management, 27(03), 680–99.

• Type: Journal Article
• Keywords:
• ISBN/ISSN: 0969-9988
• URL: https://doi.org/10.1108/ECAM-02-2019-0096
• Abstract:
  The purpose of this paper is to examine the fundamental underpinnings of product modularity and how these can be adapted to construction and its specificities (e.g. one-off products delivered by temporary supply chains) to create a model to design modular buildings. This research adopts a design science research approach. Explanation I (substantive theory devising based on the analysis of an artefact ‒ a low-income housing project) is used, followed by Solution Incubation (a model to implement product modularity in buildings design). The model allows product modularity to be implemented at distinct levels (i.e. building, systems and components) at a single stage (building design), different from manufacturing where each level is considered at a distinct stage. This is in line with the project investigated: modularity was considered for house layouts, roof types and gable formats. The model provides a hands-on tool for practitioners to design modular buildings. The low-income project is also extensively detailed: three-dimensional models, floor plans and conceptual diagrams (outlining how fundamental underpinnings were applied at each level) are presented. There is a lack of comprehensive accounts such as the one presented here to demonstrate the application of product modularity in real-world projects. This paper identifies and adapts the fundamental underpinnings of product modularity to construction, and it details how these were applied to a low-income housing design at distinct levels. Based on these two endeavours, a model to implement product modularity in buildings design is proposed.

Liao, L, Teo Ai Lin, E and Low, S P (2019) Assessing building information modeling implementation readiness in building projects in Singapore. Engineering, Construction and Architectural Management, 27(03), 700–24.

Liu, Q, Ye, G and Feng, Y (2019) Workers’ safety behaviors in the off-site manufacturing plant. Engineering, Construction and Architectural Management, 27(03), 765–84.

Rodriguez, F S, Spilski, J, Hekele, F, Beese, N O and Lachmann, T (2019) Physical and cognitive demands of work in building construction. Engineering, Construction and Architectural Management, 27(03), 745–64.

Xu, Y and Turkan, Y (2019) BrIM and UAS for bridge inspections and management. Engineering, Construction and Architectural Management, 27(03), 785–807.

Zarghami, S A and Gunawan, I (2019) A fuzzy-based vulnerability assessment model for infrastructure networks incorporating reliability and centrality. Engineering, Construction and Architectural Management, 27(03), 725–44.