The continuous strength method for structural stainless steel design
The continuous strength method for structural stainless steel design
Current stainless steel design standards are based on elastic, perfectly plastic material behaviour providing consistency with carbon steel design expressions, but often leading to overly conservative results, particularly in the case of stocky elements. More economic design rules in accordance with the actual material response of stainless steel, which shows a rounded stress–strain curve with significant strain hardening, are required. Hence, the continuous strength method (CSM) was developed. The CSM replaces the concept of cross-section classification with a cross-section deformation capacity and replaces the assumed elastic, perfectly plastic material model with one that allows for strain hardening. This paper summarises the evolution of the method and describes its recent simplified form, which is now suitable for code inclusion. Comparison of the predicted capacities with over 140 collected test results shows that the CSM offers improved accuracy and reduced scatter relative to the current design methods. The reliability of the approach has been demonstrated by statistical analyses and the CSM is currently under consideration for inclusion in European and North American design standards for stainless steel structures.
Afshan, Sheida
68dcdcac-c2aa-4c09-951c-da4992e72086
Gardner, Leroy
8bf59ee3-ee58-4f24-8d72-43e6ffb2809d
December 2012
Afshan, Sheida
68dcdcac-c2aa-4c09-951c-da4992e72086
Gardner, Leroy
8bf59ee3-ee58-4f24-8d72-43e6ffb2809d
Afshan, Sheida and Gardner, Leroy
(2012)
The continuous strength method for structural stainless steel design.
Fourth International Stainless Steel Experts Seminar<br/>, , Ascot, United Kingdom.
06 - 07 Dec 2012.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Current stainless steel design standards are based on elastic, perfectly plastic material behaviour providing consistency with carbon steel design expressions, but often leading to overly conservative results, particularly in the case of stocky elements. More economic design rules in accordance with the actual material response of stainless steel, which shows a rounded stress–strain curve with significant strain hardening, are required. Hence, the continuous strength method (CSM) was developed. The CSM replaces the concept of cross-section classification with a cross-section deformation capacity and replaces the assumed elastic, perfectly plastic material model with one that allows for strain hardening. This paper summarises the evolution of the method and describes its recent simplified form, which is now suitable for code inclusion. Comparison of the predicted capacities with over 140 collected test results shows that the CSM offers improved accuracy and reduced scatter relative to the current design methods. The reliability of the approach has been demonstrated by statistical analyses and the CSM is currently under consideration for inclusion in European and North American design standards for stainless steel structures.
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Published date: December 2012
Venue - Dates:
Fourth International Stainless Steel Experts Seminar<br/>, , Ascot, United Kingdom, 2012-12-06 - 2012-12-07
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Local EPrints ID: 435089
URI: http://eprints.soton.ac.uk/id/eprint/435089
PURE UUID: ef40a95a-9f48-43f5-95e1-47fdcfd4e22f
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Date deposited: 22 Oct 2019 16:30
Last modified: 17 Mar 2024 03:56
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Author:
Leroy Gardner
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