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Testing, numerical simulation and design of prestressed high strength steel arched trusses

Testing, numerical simulation and design of prestressed high strength steel arched trusses
Testing, numerical simulation and design of prestressed high strength steel arched trusses

The structural behaviour of prestressed high strength steel arched trusses is studied in this paper through experimentation and numerical modelling. Four 11 m span prestressed arched trusses fabricated from S460 hot finished square hollow section members were loaded vertically to failure. Three of the tested trusses were prestressed to different levels by means of a 7-wire strand cable housed within the bottom chord, while the fourth truss contained no cable and served as a control specimen. Each truss was loaded at five points coinciding with joint locations along its span, and the recorded load-deformation responses at each loading point are presented. Inclusion and prestressing of the cable was shown to delay yielding of the bottom chord and enhance the load carrying capacity of the trusses, which ultimately failed by either in-plane or out-of-plane buckling of the top chord. For the tested trusses, around 40% increases in structural resistance were achieved through the addition of the cable, though the self-weight was increased by only approximately 3%. In parallel with the experimental programme, a finite element model was developed and validated against the test results. Upon successful replication of the experimentally observed structural response of the trusses, parametric studies were conducted to investigate the effect of key parameters such as prestress level, material grade and the top chord cross-section on the overall structural response. Based on both the experimental and numerical results, design recommendations in the form of simple design checks to be performed for such systems are provided.

Cable-in-tube system, Experimentation, Finite element modelling, High strength steel, Prestressing, Testing, Trusses
0141-0296
510-522
Afshan, S.
68dcdcac-c2aa-4c09-951c-da4992e72086
Theofanous, M.
fd9bc1b5-4150-492c-8fed-c722bb1dde7a
Wang, J.
53d8d8bd-3c17-406e-9acf-961cc86b9a00
Gkantou, M.
e768dc98-a1f7-49b0-9503-14473568d97d
Gardner, L.
2d5fc7ca-efd9-425a-981c-73d3937aca08
Afshan, S.
68dcdcac-c2aa-4c09-951c-da4992e72086
Theofanous, M.
fd9bc1b5-4150-492c-8fed-c722bb1dde7a
Wang, J.
53d8d8bd-3c17-406e-9acf-961cc86b9a00
Gkantou, M.
e768dc98-a1f7-49b0-9503-14473568d97d
Gardner, L.
2d5fc7ca-efd9-425a-981c-73d3937aca08

Afshan, S., Theofanous, M., Wang, J., Gkantou, M. and Gardner, L. (2019) Testing, numerical simulation and design of prestressed high strength steel arched trusses. Engineering Structures, 183, 510-522. (doi:10.1016/j.engstruct.2019.01.007).

Record type: Article

Abstract

The structural behaviour of prestressed high strength steel arched trusses is studied in this paper through experimentation and numerical modelling. Four 11 m span prestressed arched trusses fabricated from S460 hot finished square hollow section members were loaded vertically to failure. Three of the tested trusses were prestressed to different levels by means of a 7-wire strand cable housed within the bottom chord, while the fourth truss contained no cable and served as a control specimen. Each truss was loaded at five points coinciding with joint locations along its span, and the recorded load-deformation responses at each loading point are presented. Inclusion and prestressing of the cable was shown to delay yielding of the bottom chord and enhance the load carrying capacity of the trusses, which ultimately failed by either in-plane or out-of-plane buckling of the top chord. For the tested trusses, around 40% increases in structural resistance were achieved through the addition of the cable, though the self-weight was increased by only approximately 3%. In parallel with the experimental programme, a finite element model was developed and validated against the test results. Upon successful replication of the experimentally observed structural response of the trusses, parametric studies were conducted to investigate the effect of key parameters such as prestress level, material grade and the top chord cross-section on the overall structural response. Based on both the experimental and numerical results, design recommendations in the form of simple design checks to be performed for such systems are provided.

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More information

Accepted/In Press date: 2 January 2019
e-pub ahead of print date: 15 January 2019
Published date: 15 March 2019
Keywords: Cable-in-tube system, Experimentation, Finite element modelling, High strength steel, Prestressing, Testing, Trusses

Identifiers

Local EPrints ID: 429982
URI: http://eprints.soton.ac.uk/id/eprint/429982
ISSN: 0141-0296
PURE UUID: 8dee90e4-f59a-4132-9b2a-20bad18f6c53
ORCID for S. Afshan: ORCID iD orcid.org/0000-0003-1048-2931

Catalogue record

Date deposited: 09 Apr 2019 16:30
Last modified: 18 Mar 2024 03:52

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Contributors

Author: S. Afshan ORCID iD
Author: M. Theofanous
Author: J. Wang
Author: M. Gkantou
Author: L. Gardner

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