Abstract

Volumetric prefabricated building construction is growing in most developed countries; for example, in Sweden the market share of prefabricated building systems in the housing industry was more than 80%. However, in Australia only approximately 3–4% of new building constructions are prefabricated buildings in a year. A major hindrance to the growth of prefab construction in Australia is that systems are developed under commercial and confidential conditions. There are limited publicly-available research and case studies for certifiers, regulators, engineers and academia to provide independent information on the performance, advantages and disadvantages of prefabricated building systems. Independent designers and structural engineers are relying on the strength of the structural and non-structural element, as well as the connections of the prefabricated building systems. This strength is estimated from the “commercial-in-confidence” test of individual components by manufactures, and it might result in undesired outcomes in design. This paper provides an overview of available literature on structural performance, benefits, constraints and challenges of prefabricated building systems. This paper also highlights the research needed on the prefabricated building systems such as full-scale tests, numerical modelling, hybrid simulations, case studies and social and economic assessments. Being supported by sound academic research will increase the market demand for prefabricated building systems in Australia as well as in other countries.

Highlights

  • In Australia, the prefabricated building system has been recognized as a one of the alternative solutions to changing the speed of conventional construction methods at a fast rate

  • This paper provides an overview of past research noting the limitations in the Australian context and context and offers some recommendations on targeted research needed in the prefabricated building offers some recommendations on targeted research needed in the prefabricated building system

  • This paper provides an overview of past research noting the limitations in the Australian context and offers some recommendations on targeted research needed in the prefabricated building system

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Summary

Introduction

In Australia, the prefabricated building system (i.e., pre-cut, panelised, modular, and mobile home building system) has been recognized as a one of the alternative solutions to changing the speed of conventional construction methods at a fast rate. Volumetric prefabricated building construction systems comprise modular of volumetric units that are typically manufactured complete with architectural finishes and services at an off-site, quality-controlled factory (See Figures 1 and 2). Thisbuildings is in part due limited knowledge of the applicability, and percentage of all low-rise wereto built using modular construction or design volumetric prefabricated building system [3,6,13]. This is in part due to limited knowledge of the applicability, prefabricated building system [3,6,13].

Cost and Time
Other Benefits
Structural performance of prefabricated Building systems
Fire Resistance and Acoustic Performance
Performance of the Structure under Earth Quake and Wind Load
Outcome of the capacity spectrum analysis
Elements of of wood-concrete-composite
Findings
Conclusions

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