Loadbearing Architectural Precast Concrete Wall Panels
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TLDR
In this article, the benefits of using loadbearing architectural precast concrete walls in buildings are discussed, and the role of connections, shear walls and the use of precastcrete as forms for cast-in-place concrete is explained.Abstract:
Architectural precast concrete wall panels that act as loadbearing elements in a building are both a structurally efficient and economical means of transferring floor and roof loads through the structure and into the foundation. In many cases, this integration can also simplify construction and reduce costs. This article presents the many benefits that can be derived from using loadbearing architectural precast concrete walls in buildings. Discussed herein are the various shapes and sizes of wall panels, major design considerations, and when loadbearing or shear wall units should be the first design choice. The role of connections, shear walls, and the use of precast concrete as forms for cast-in-place concrete is explained. In general, the design methods and techniques presented in this article apply to buildings in both seismic and non-seismic areas. The latter part of this article shows how these design principles can be applied in practice in a variety of buildings. These examples illustrate the use of window wall panels, spandrels, and solid or sandwich wall panels as the loadbearing wall members. When all the advantages of using architectural precast concrete as loadbearing walls are added up, it makes good sense to use this structural form in building applications.read more
Citations
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Development of a precast concrete shear-wall system requiring special code acceptance
TL;DR: In this paper, a load-limiting foundation connection for precast, prestressed panels used as shear walls that prevents the development of excessive uplift forces in the joint is proposed.
Journal ArticleDOI
Structural behavior of axially loaded precast foamed concrete sandwich panels
Y.H. Mugahed Amran,Abang Abdullah Abang Ali,Raizal S.M. Rashid,Farzad Hejazi,Nor Azizi Safiee +4 more
TL;DR: In this paper, the axial load-bearing capacity of precast foamed concrete sandwich panels (PFCSPs) was investigated under axial loads and a semi-empirical formula was proposed based on the laboratory test and finite element analysis results.
Journal ArticleDOI
Methodology for service life prediction of architectural concrete facades
TL;DR: In this paper, a methodology for the service life prediction of architectural concrete facades is proposed, following a research line previously developed for other types of claddings, to evaluate their durability.
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Evaluate Performance of Precast Concrete Wall to Wall Connection
TL;DR: In this article, a 3D finite element model of precast walls and connection is developed using finite element models to evaluate the performance of connection in terms of the stress, deformation and absolute plastic strain.
Journal Article
The structural behaviour of precast lightweight foamed concrete sandwich panel as a load bearing wall
TL;DR: In this paper, a precast lightweight Foamed Concrete Sandwich Panel (PLFP) is proposed as a new affordable building system, which consists of two foamed concrete wythes and a polystyrene insulation layer in between them.
References
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Comparison of shear wall deformations and forces using two approaches
TL;DR: In this article, the authors compared the lateral deformations and section forces of cantilevered shear walls in four building layouts by two different procedures and concluded that the simpler beam model with shear deformations yields displacement and force results that are very close to the more complex finite element approach with a fine mesh.
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Design-construction of the oklahoma city irs building
TL;DR: In this paper, the authors discuss the architectural and structural considerations together with the production, transportation and erection highlights of this all-precast, prestressed concrete ten-story building in Oklahoma City, Oklahoma.
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Prestressed concrete building construction using precast wall panels
Felix Kulka,T. Y. Lin,Y. C. Yang +2 more
TL;DR: In this paper, the authors describe the design and construction of multistory buildings using precast elements integrated into walls and floors by reinforcing steel and post-tensioning, and the response of these buildings to lateral forces is studied, first following building code requirements and then using catastrophic earthquake spectra.
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Design-Construction of United Bank Tower
TL;DR: In this paper, the design-construction highlights of a $13 million high-rise office building in Colorado Springs are presented, where a major feature of this prestigious building is the integration of both architectural and structural precast, prestressed concrete components and especially the dual function of exterior wall panels which provide aesthetic expression and serve as loadbearing elements.