Numerical simulation and design of ferritic stainless steel bolted T-stubs in tension
Numerical simulation and design of ferritic stainless steel bolted T-stubs in tension
Following the experimental study on EN 1.4003 ferritic stainless steel T-stubs in tension discussed in the companion paper, this study reports the development and validation of an advanced FE model that can predict the overall behaviour and failure modes of ferritic stainless steel bolted T-stubs subjected to tension. Key simulation strategies regarding the modelling of bolt geometry and overcoming numerical instabilities are discussed. Following the determination of material properties in the longitudinal, transverse and diagonal direction reported in the companion paper, the effect of allowing for anisotropy in the FE simulations is investigated and modelling recommendations for its inclusion in FE models are made. Moreover, the effect of bolt end and edge spacing on the joint plastic resistance, ultimate capacity, ductility as well as overall response is comprehensively discussed by inspecting the stress distribution through the plate thickness at various locations along the T-stub, thus revealing both the flexural and the membrane component of the load transfer mechanism. The numerical results were validated against the experimental results reported in the companion paper in terms of predicted plastic and ultimate resistance, ductility and obtained failure modes. On the basis of the obtained results and the discussion, modelling recommendations for the simulation of stainless steel T-stubs are made.
Stainless steel, Ferritic, Bolted connections, Numerical analysis, Material anisotropy
Yapici, Orhan
f74887ee-9dd7-455a-afa9-b3d2c7e768bd
Theofanous, Marios
b2919184-ed3f-4ed5-b7e7-eb23e9a510b4
Yuan, Huanxin
60832ca0-e3b8-4215-820f-cd26f35af135
Dirar, Samir
525341c2-34cf-4c46-aa9c-efb4633b3a2b
Afshan, Sheida
68dcdcac-c2aa-4c09-951c-da4992e72086
1 November 2022
Yapici, Orhan
f74887ee-9dd7-455a-afa9-b3d2c7e768bd
Theofanous, Marios
b2919184-ed3f-4ed5-b7e7-eb23e9a510b4
Yuan, Huanxin
60832ca0-e3b8-4215-820f-cd26f35af135
Dirar, Samir
525341c2-34cf-4c46-aa9c-efb4633b3a2b
Afshan, Sheida
68dcdcac-c2aa-4c09-951c-da4992e72086
Yapici, Orhan, Theofanous, Marios, Yuan, Huanxin, Dirar, Samir and Afshan, Sheida
(2022)
Numerical simulation and design of ferritic stainless steel bolted T-stubs in tension.
Journal of Constructional Steel Research, 198 (11), [107555].
(doi:10.1016/j.jcsr.2022.107555).
Abstract
Following the experimental study on EN 1.4003 ferritic stainless steel T-stubs in tension discussed in the companion paper, this study reports the development and validation of an advanced FE model that can predict the overall behaviour and failure modes of ferritic stainless steel bolted T-stubs subjected to tension. Key simulation strategies regarding the modelling of bolt geometry and overcoming numerical instabilities are discussed. Following the determination of material properties in the longitudinal, transverse and diagonal direction reported in the companion paper, the effect of allowing for anisotropy in the FE simulations is investigated and modelling recommendations for its inclusion in FE models are made. Moreover, the effect of bolt end and edge spacing on the joint plastic resistance, ultimate capacity, ductility as well as overall response is comprehensively discussed by inspecting the stress distribution through the plate thickness at various locations along the T-stub, thus revealing both the flexural and the membrane component of the load transfer mechanism. The numerical results were validated against the experimental results reported in the companion paper in terms of predicted plastic and ultimate resistance, ductility and obtained failure modes. On the basis of the obtained results and the discussion, modelling recommendations for the simulation of stainless steel T-stubs are made.
Text
JCSR_Yapici_et_al_Sim_ and_design_of_fer_SS_T-stubs
- Accepted Manuscript
More information
Accepted/In Press date: 6 September 2022
e-pub ahead of print date: 15 September 2022
Published date: 1 November 2022
Keywords:
Stainless steel, Ferritic, Bolted connections, Numerical analysis, Material anisotropy
Identifiers
Local EPrints ID: 474415
URI: http://eprints.soton.ac.uk/id/eprint/474415
ISSN: 0143-974X
PURE UUID: 77ea7261-1867-4376-bbb9-61c290593ab6
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Date deposited: 21 Feb 2023 17:52
Last modified: 17 Mar 2024 03:56
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Contributors
Author:
Orhan Yapici
Author:
Marios Theofanous
Author:
Huanxin Yuan
Author:
Samir Dirar
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