A numerical investigation into stripping failure of bolt assemblies at elevated temperatures
A numerical investigation into stripping failure of bolt assemblies at elevated temperatures
A detailed finite element (FE) study is presented investigating the factors affecting the failure modes of high strength and stainless steel bolt assemblies under tensile force at ambient and elevated temperatures. Axisymmetric FE models incorporating key behavioural aspects including surface interaction and damage modelling of steel at elevated temperatures were developed. In practice, stripping failure is generally undesired because it results in premature failure of the bolt which can deteriorate rotational capacity of connections and hence compromise the robustness of steel frames. Yet, stripping failure has not been previously investigated in the open literature. In this study, the examined stainless steel bolt assemblies displayed an outstanding ductile response even when stripping failure was observed. Parameters that can govern the failure modes of bolt assemblies at elevated temperatures include the thread length in the grip (Lt), and the relative strength and friction between the mating threads. At ambient temperature, stripping was observed at certain Lt lengths depending on the nut dimension deviation from the basic profile. The Lt stripping failure threshold reduces with temperature for high strength bolt assemblies while the value fluctuates without a discernible pattern for stainless steel types. Increasing the relative strength and friction coefficient can reduce the Lt length threshold, with the former having the greatest influence. It was also found that larger bolt sizes are more vulnerable to thread stripping failure.
High strength bolt, Necking failure, Stainless steel bolt, Stripping failure, Thread stripping
1458-1466
Shaheen, Mohamed
e7a4a38e-4c6c-41a6-96c1-fbaf6627ae3e
Foster, Andrew
f5235d3d-f231-4246-9781-0c4c51b9fcff
Cunningham, Lee
d1b0bc03-c55e-43b3-9a41-62761ebdc684
Afshan, Sheida
68dcdcac-c2aa-4c09-951c-da4992e72086
October 2020
Shaheen, Mohamed
e7a4a38e-4c6c-41a6-96c1-fbaf6627ae3e
Foster, Andrew
f5235d3d-f231-4246-9781-0c4c51b9fcff
Cunningham, Lee
d1b0bc03-c55e-43b3-9a41-62761ebdc684
Afshan, Sheida
68dcdcac-c2aa-4c09-951c-da4992e72086
Shaheen, Mohamed, Foster, Andrew, Cunningham, Lee and Afshan, Sheida
(2020)
A numerical investigation into stripping failure of bolt assemblies at elevated temperatures.
Structures, 27, .
(doi:10.1016/j.istruc.2020.07.042).
Abstract
A detailed finite element (FE) study is presented investigating the factors affecting the failure modes of high strength and stainless steel bolt assemblies under tensile force at ambient and elevated temperatures. Axisymmetric FE models incorporating key behavioural aspects including surface interaction and damage modelling of steel at elevated temperatures were developed. In practice, stripping failure is generally undesired because it results in premature failure of the bolt which can deteriorate rotational capacity of connections and hence compromise the robustness of steel frames. Yet, stripping failure has not been previously investigated in the open literature. In this study, the examined stainless steel bolt assemblies displayed an outstanding ductile response even when stripping failure was observed. Parameters that can govern the failure modes of bolt assemblies at elevated temperatures include the thread length in the grip (Lt), and the relative strength and friction between the mating threads. At ambient temperature, stripping was observed at certain Lt lengths depending on the nut dimension deviation from the basic profile. The Lt stripping failure threshold reduces with temperature for high strength bolt assemblies while the value fluctuates without a discernible pattern for stainless steel types. Increasing the relative strength and friction coefficient can reduce the Lt length threshold, with the former having the greatest influence. It was also found that larger bolt sizes are more vulnerable to thread stripping failure.
Text
A numerical investigation into stripping failure of bolt assemblies at elevated temperatures
- Accepted Manuscript
More information
Accepted/In Press date: 20 July 2020
Published date: October 2020
Additional Information:
Funding Information:
This project is funded by a University of Manchester Dean’s Award Scholarship, whose sponsorship is gratefully acknowledged. Dr. Jonathan Gosaye Fida Kaba is duly acknowledged.
Publisher Copyright:
© 2020 Institution of Structural Engineers
Keywords:
High strength bolt, Necking failure, Stainless steel bolt, Stripping failure, Thread stripping
Identifiers
Local EPrints ID: 443212
URI: http://eprints.soton.ac.uk/id/eprint/443212
ISSN: 2352-0124
PURE UUID: 609a71eb-21e8-4df1-9963-0fca98ec923a
Catalogue record
Date deposited: 17 Aug 2020 16:30
Last modified: 17 Mar 2024 05:48
Export record
Altmetrics
Contributors
Author:
Mohamed Shaheen
Author:
Andrew Foster
Author:
Lee Cunningham
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
