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Design of High-Performance Pre-Engineered Steel Concrete Composite Beams for Sustainable Construction

About Design of High-Performance Pre-Engineered Steel Concrete Composite Beams for Sustainable Construction

This accessible and practical shortform book details the properties and advantages of high-performance pre-engineered steel-concrete composite beams (HPCBs) for improving the sustainability of construction techniques and explains the analysis methods for testing HPCB systems. The authors describe a new HPCB system that has been developed to reduce the input of raw materials and embodied CO2 commonly associated with heavily loaded and long spanned industrial buildings (which predominately comprise reinforced concrete) and improve the sustainability of the construction process. They provide several resources throughout to facilitate adoption by professionals. Design equations derived from Eurocode 4 approach for ultimate limit state and serviceability limit state and worked examples are included throughout. The authors discuss the feasibility for both materials and the full-scale beams and CO2 reduction methods including use of recycled concrete aggregate, ground granulated blast-furnace, and silica fume to replace natural coarse aggregates and Ordinary Portland Cement. Guidance for testing HPCBs including setup, test procedure, and data collection and interpretation is also given and recommendations for finite element analysis for HPCBs are elaborated. Design examples are appended to illustrate typical current practice using a 12- × 12-m grid floor with live load of 15KPa. Various considerations for different parameters such as fire resistance are discussed. Finally, the authors present a case study of a recently completed industrial building in Singapore to quantify the benefits of using HPCBs over reinforced concrete and conventional composite construction. Structural engineering professionals whose work relates to long-span and heavy-loading industrial or commercial buildings will benefit from the detailed guidance and focus on practical applications provided throughout this book. Postgraduate students of advanced steel and composite structures will also benefit from these descriptions.

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  • Language:
  • English
  • ISBN:
  • 9781032626918
  • Binding:
  • Hardback
  • Published:
  • August 4, 2024
  • Dimensions:
  • 140x216x10 mm.
  • Weight:
  • 313 g.
  In stock
Delivery: 3-5 business days
Expected delivery: December 5, 2024

Description of Design of High-Performance Pre-Engineered Steel Concrete Composite Beams for Sustainable Construction

This accessible and practical shortform book details the properties and advantages of high-performance pre-engineered steel-concrete composite beams (HPCBs) for improving the sustainability of construction techniques and explains the analysis methods for testing HPCB systems.
The authors describe a new HPCB system that has been developed to reduce the input of raw materials and embodied CO2 commonly associated with heavily loaded and long spanned industrial buildings (which predominately comprise reinforced concrete) and improve the sustainability of the construction process. They provide several resources throughout to facilitate adoption by professionals. Design equations derived from Eurocode 4 approach for ultimate limit state and serviceability limit state and worked examples are included throughout. The authors discuss the feasibility for both materials and the full-scale beams and CO2 reduction methods including use of recycled concrete aggregate, ground granulated blast-furnace, and silica fume to replace natural coarse aggregates and Ordinary Portland Cement. Guidance for testing HPCBs including setup, test procedure, and data collection and interpretation is also given and recommendations for finite element analysis for HPCBs are elaborated. Design examples are appended to illustrate typical current practice using a 12- × 12-m grid floor with live load of 15KPa. Various considerations for different parameters such as fire resistance are discussed. Finally, the authors present a case study of a recently completed industrial building in Singapore to quantify the benefits of using HPCBs over reinforced concrete and conventional composite construction.
Structural engineering professionals whose work relates to long-span and heavy-loading industrial or commercial buildings will benefit from the detailed guidance and focus on practical applications provided throughout this book. Postgraduate students of advanced steel and composite structures will also benefit from these descriptions.

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