Paper Titles

Research on Influence Factors of the Ultimate Bearing Capacity of the Soil of Push-Extend Multi-under-Reamed Pile under Compression
p.538

Research on Load Distribution Effect of Load Distributed Structure in the Complex Rotational and Translational Engineering
p.542

Research on the Connection Modes and Numerical Simulation Methods of RC Frame and Infill Wall
p.549

SAP2000 Analysis of a Particular Beam String Structure
p.555

Situation and Prospect of H-beam with Corrugated Web
p.559

Snow Distribution on Low-Rise Roofs and Practical Analysis Method
p.565

Stationary Problems of Moisture-Elasticity for Inhomogeneous Thick-Walled Shells
p.571

Structural Optimization Design of a Tall Residential Building with Rectangle Layout in High Seismic Intensity
p.576

The Empirical Analysis on the Reinforcement Application of the Energy Dissipation to the Framework Structure
p.580

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 671-674Situation and Prospect of H-beam with Corrugated...

Situation and Prospect of H-beam with Corrugated Web

Article Preview

Abstract:

The H-beam with corrugated web is a new type of H-beam, whose web is produced by substituting corrugated web for flat web. This paper reviews the research status on mechanical properties of H-beam with corrugated web at home and abroad recently, and its bearing capacity calculation method is summarized. Finally, the future development of H-beam with corrugated web is prospected. As can be seen by comparing, there is much more room for the new field of research.

You might also be interested in these eBooks

Construction and Urban Planning

Info:

Periodical:

Advanced Materials Research (Volumes 671-674)

Pages:

559-564

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.671-674.559

Citation:

Cite this paper

Online since:

March 2013

Authors:

Xuan Liu, Jin Man Yan, Ren Wei Hu

Keywords:

Bearing Capacity, Finite Element, H-Beam with Corrugated Web, Stability

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Hamada Masaki, Japan Patent 54, 107, 778. (1981).

[2] Hongde Cao, Zhihua Cai, Zhiwen Zhang, China Patent 86, 106, 315A. (1988).

[3] Zhe Zhang, Guoqiang Li, Feifei Sun: Progress in Steel Building Structures Vol. 10 (2008), pp.41-46.

[4] Combault J: Journal of Japan Prestressed Concrete Engineering Association Vol. 34 (1992), pp.63-71.

[5] Hamilton R, Elgaaly M: prepared for National Science Foundation (1993).

[6] Y.A. Khalid, C.L. Chan, B.B. Sahari, A.M.S. Hamouda: submitted to Journal of Constructional Steel Research (2002).

[7] Zhe Zhang, Guoqiang Li, Feifei Sun: Journal of Building Structures Vol. 32 (2011), pp.113-118.

[8] Stephen P. Timoshenko, James M. Gere: Theory of Elastic Stability (2nd ed. New York: McGraw-Hill; 1961).

[9] Easley JT: Journal of the Structural Division: ASCE Vol. 101 (1975), pp.1403-1417.

[10] Abbas HH: Analysis and Design of Corrugated Web I—girders for Bridges Using High Performance Steel (PhD Thesis, Dept. of Civil and Environmental Engineering, Lehigh University, 2003).

[11] Lindner J, Aschinger R: Stahlbau Vol. 57 (1988), pp.377-380.

[12] Driver RG, Abbas HH, Sause R: Journal of Structural Engineering Vol. 132 (2006), pp.195-203.

[13] Elgaaly M, Hamilton RW, Seshadri A: Journal of Structural Engineering Vol. 122 (1996), pp.390-398.

[14] El-Metwally AS: Prestressed Composite Girders with Corrugated Steel Webs (M.S. Thesis. Calgary (AB): Dept. of Civil Engineering, University of Calgary; 1998).

[15] Sayed-Ahmed EY: Canadian Journal of Civil Engineering (2001), pp.656-672.

[16] Richard Sause, Thomas N. Braxtan: submitted to Journal of Constructional Steel Research (2011).

[17] Hassan H. Abbas, Richard Sause, and Robert G. Driver: Journal of Engineering Mechanics Vol. 132 (2006), pp.806-814.

[18] Hassan H. Abbas, Richard Sause, and Robert G. Driver: Journal of Structural Engineering Vol. 133 (2007), pp.347-355.

[19] Lindner J: Lateral Torsional Buckling of Beams with Trapezoidally Corrugated Webs. ( Proc. Int. Colloquium of Stability of Steel Structures, Budapest, Hungary, 1990).

[20] Jiho Moon, Jong-Won Yi, Byung H. Choi, Hak-Eun Lee: Thin-Walled Structures Vol. 47 (2009), pp.21-30.

[21] Zhe Zhang, Guoqiang Li, Feifei Sun: Engineering Mechanics Vol. 28 (2011), pp.77-82.

[22] Yanlin Guo, Qinglin Zhang, Xiaoan Wang: China Civil Engineering Journal Vol. 43 (2010), pp.17-26.

[23] Mohamed Elgaaly, Anand Seshadr: Journal of Structural Engineering Vol. 123 (1997), pp.783-791.

[24] Ahmed salah El-Metwally: Prestressed Composite Girders with Corrugated Steel Webs (M.S. Thesis. Calgary (Alberta, Canada): University of Calgary, 1998).

[25] Ling Huang, Hiroshi Hikosaka, Keizo Komine: Computers and Structures Vol. 82 (2004), p.2061-(2069).

[26] K.S. Kim, D.H. Lee, S.M. Choi, Y.H. Choi, S.H. Jung: Composites Part B: Engineering Vol. 42 (2011), pp.1603-1616.

[27] Kang Su Kim, Deuck Hang Lee: Composites Part B: Engineering Vol. 42 (2011), pp.1617-1629.

[28] Zhe Zhang: Theoretical and Experimental Study of H-beam with Corrugated Webs and Composite Beam Performance (PhD Thesis, Tongji university, 2009).

[29] European Committee for Standardisation. prEN 1993-1-5. EUROCODE 3: Design of steel structures. Part 1. 5: Plated structural elements, (2004).

[30] CECS 291：2011, Technical Regulations of Steel with Corrugated Webs. (2011).

[31] CECS 290：2011, Technical Regulations of Steel with Corrugated Webs. (2011).