Publication detail

Numerical Analysis of Hybrid Steel-Glass Beam

PEŠEK, O. MELCHER, J. PILGR, M.

Original Title

Numerical Analysis of Hybrid Steel-Glass Beam

Type

conference paper

Language

English

Original Abstract

The aim of this paper is testing of numerical modeling of steel-glass composite structure. New hybrid steel-glass beam consists of steel flanges and glass web bonded together. The most important aspect of all composite materials is to joint of different materials. Actually silicone, peroxide, acrylate and polyurethane materials are use for steel and glass connecting. Load carrying capacity is directly dependent to quality of joint of materials. In this paper perfect shear connection is consider. Numerical modeling was performed in software based on final element method. Model of hybrid beam is consisting of 2D and 3D elements (two models). Span of beam is 6 meters, depth is 300 mm. Flange has rectangular cross section with dimensions 150 and 10 mm. Thickness of web is 8 mm. (this dimensions are equivalent to IPE300). Linear and nonlinear solutions were performed. The same beam was calculated by analytical method. Results (deflections, normal stress and shear stress) from numerical modeling were compared with analytical calculation results.

Keywords

Structural glass, hybrid steel-glass beam, composite material, shear connection, analytical analysis, final element method

Authors

PEŠEK, O.; MELCHER, J.; PILGR, M.

RIV year

2012

Released

2. 12. 2012

Publisher

WSEAS Press

Location

Paris, France

ISBN

978-1-61804-137-1

Book

Proceedings of 3rd European Conference of Civil Engineering (ECCIE'12)

ISBN

2227-4588

Periodical

Advances in Mathematical and Computational Methods

State

Hellenic Republic

Pages from

234

Pages to

239

Pages count

6

BibTex

@inproceedings{BUT95932,
  author="Ondřej {Pešek} and Jindřich {Melcher} and Milan {Pilgr}",
  title="Numerical Analysis of Hybrid Steel-Glass Beam",
  booktitle="Proceedings of 3rd European Conference of Civil Engineering (ECCIE'12)",
  year="2012",
  journal="Advances in Mathematical and Computational Methods",
  pages="234--239",
  publisher="WSEAS Press",
  address="Paris, France",
  isbn="978-1-61804-137-1",
  issn="2227-4588"
}