Beam-to-column connection using hollow steel section for precast concrete frames
The performance of precast concrete frames depends on the behaviour of connection. The configuration of connections between beam-to-column affects the constructability, stability, strength, flexibility and residual force in the structure. In addition, connections play a key role in the dissipation o...
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my-utm-ep.154302017-09-28T04:17:41Z Beam-to-column connection using hollow steel section for precast concrete frames 2010-04 Majid, Mohamad Zaki TA Engineering (General). Civil engineering (General) The performance of precast concrete frames depends on the behaviour of connection. The configuration of connections between beam-to-column affects the constructability, stability, strength, flexibility and residual force in the structure. In addition, connections play a key role in the dissipation of energy and redistribution of loads. This paper describes the comparative study on testing between rigid and precast beam-to-column connections to obtain the important characteristics of the connections such as the load-displacement and moment-rotation relationship. The objective of the study is to propose a beam-to-column connection using hollow steel section for precast concrete frames and to determine experimentally the moment resistance and rotation of the proposed beam-to-column connection. In this study, three specimens comprised two precast concrete beam-to-column connection using hollow steel section and one rigid beam-to-column connection were considered. The behaviour of load displacement, moment rotation relationships and type of failure in connections are also investigated. The result indicates that the precast connection using hollow steel section provides very minimum moment resistance and hence the connection can be best model as pinned. 2010-04 Thesis http://eprints.utm.my/id/eprint/15430/ http://eprints.utm.my/id/eprint/15430/6/MohamadZakiMajidMFKA2010.pdf application/pdf en public masters Universiti Teknologi Malaysia, Faculty of Civil Engineering Faculty of Civil Engineering 1) Ahmad Baharuddin Abd Rahman and Wahid Omar (2007) Industrialised Building Systems in Malaysia Construction Industry Development Board (CIDB Malaysia). 1st edition. 2) Bruggeling A.S.G. and Huyghe G.F. (1991). “Prefabrication with Concrete.” Rotterham: A.A. Balkema. 3) CIDB (2004). “IBS Publication: Catalogue of Precast Concrete Components for Building Works 2004/2005.” Available: http://www.cidb.gov.my/ 4) Dolan C.W., Stanton J.F. and Anderson R.G.(1987). “Moment Resistance Connections and Simple Connections.” PCI Journal 1987, V32 No.2, 64-74. 5) Dolan C.W, Nilson A.H and Darwin D, (2004). “Design of Concrete Structures”. Thirteenth Edition. 6) Elliott, K.S. (1996). Multi-Storey Precast Concrete Framed Structures. Oxford: Blackwell Science Ltd. 7) Loo Y.C. and Yao B.Z (1995). “Static and Repeated Load Tests on Precast Concrete Beam-to-Column. 8) Macgregor J.G. (1992). “Reinforced Concrete Mechanics and Design.” United State: Prentice-Hall. 9) Park R. and Paulay T. (1975). “Reinforced Concrete Structures.” New York: John Wiley & Sons. 10) Precast/Prestressed Concrete Institute (1999). PCI Design Handbook Precast and Prestressed Concret.Chicago, Illinois: PCI. 11) Saeed, M (2003). “Finite Element Analysis – Theory and Application with ANSYS.” New Jersey : Pearson Education, Inc, 2. 12) Waddell, J.J (1974). “Precast Concrete: Handling and Erection.” Detroit, Michigan: American Concrete Institute (ACI) |
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TA Engineering (General) Civil engineering (General) Majid, Mohamad Zaki Beam-to-column connection using hollow steel section for precast concrete frames |
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The performance of precast concrete frames depends on the behaviour of connection. The configuration of connections between beam-to-column affects the constructability, stability, strength, flexibility and residual force in the structure. In addition, connections play a key role in the dissipation of energy and redistribution of loads. This paper describes the comparative study on testing between rigid and precast beam-to-column connections to obtain the important characteristics of the connections such as the load-displacement and moment-rotation relationship. The objective of the study is to propose a beam-to-column connection using hollow steel section for precast concrete frames and to determine experimentally the moment resistance and rotation of the proposed beam-to-column connection. In this study, three specimens comprised two precast concrete beam-to-column connection using hollow steel section and one rigid beam-to-column connection were considered. The behaviour of load displacement, moment rotation relationships and type of failure in connections are also investigated. The result indicates that the precast connection using hollow steel section provides very minimum moment resistance and hence the connection can be best model as pinned. |
format |
Thesis |
qualification_level |
Master's degree |
author |
Majid, Mohamad Zaki |
author_facet |
Majid, Mohamad Zaki |
author_sort |
Majid, Mohamad Zaki |
title |
Beam-to-column connection using hollow steel section for precast concrete frames |
title_short |
Beam-to-column connection using hollow steel section for precast concrete frames |
title_full |
Beam-to-column connection using hollow steel section for precast concrete frames |
title_fullStr |
Beam-to-column connection using hollow steel section for precast concrete frames |
title_full_unstemmed |
Beam-to-column connection using hollow steel section for precast concrete frames |
title_sort |
beam-to-column connection using hollow steel section for precast concrete frames |
granting_institution |
Universiti Teknologi Malaysia, Faculty of Civil Engineering |
granting_department |
Faculty of Civil Engineering |
publishDate |
2010 |
url |
http://eprints.utm.my/id/eprint/15430/6/MohamadZakiMajidMFKA2010.pdf |
_version_ |
1747814995141328896 |