The material stress–strain behaviour of structural carbon steel may be suitably accurately reflected for design purposes by an idealised elastic, perfectly-plastic material model; such material behaviour lends itself to the concept of section classification. There are, however, a number of structural materials, such as aluminium, stainless steel and some high strength, cold-worked steels, where this idealised model becomes inaccurate due to non-linearity of the stress–strain response below the yield point and considerable strain hardening beyond the yield point. Resulting design methods, developed on the basis of the idealised material behaviour, are necessarily overly conservative. A new method has been developed that utilises a more accur...
Current stainless steel design standards are based on elastic, perfectly plastic material behaviour ...
This report presents a general design procedure for calculating the moment capacity of sections cont...
Through the development of an innovative full cross-section tensile testing method, a programme of e...
Current structural steel design codes, such as EN 1993-1-1, were developed on the basis of a bi-line...
Since stainless steel is an expensive material, it is important that, when used in structural applic...
Stainless steel structural sections possess several features that result in a significantly differen...
In current structural stainless steel design codes, local buckling is accounted for through a cross-...
Since stainless steel is an expensive material, it is important that, when used in structural appli...
Stainless steel exhibits pronounced nonlinearity in stress-strain response when compared to the typi...
A conceptually new approach which recognises the continuous nature of the stress–strain characterist...
Structural analysis of steel frames is typically performed using beam elements. Since these elements...
A conceptually new approach which recognises the continuous nature of the stress–strain characterist...
Material yielding on one hand and local buckling on the other hand limit the cross-section capacity ...
The cross-sectional behaviour of steel sections can be shown to be influenced by two extreme behavio...
Current stainless steel design standards are based on elastic, perfectly plastic material behaviour ...
Current stainless steel design standards are based on elastic, perfectly plastic material behaviour ...
This report presents a general design procedure for calculating the moment capacity of sections cont...
Through the development of an innovative full cross-section tensile testing method, a programme of e...
Current structural steel design codes, such as EN 1993-1-1, were developed on the basis of a bi-line...
Since stainless steel is an expensive material, it is important that, when used in structural applic...
Stainless steel structural sections possess several features that result in a significantly differen...
In current structural stainless steel design codes, local buckling is accounted for through a cross-...
Since stainless steel is an expensive material, it is important that, when used in structural appli...
Stainless steel exhibits pronounced nonlinearity in stress-strain response when compared to the typi...
A conceptually new approach which recognises the continuous nature of the stress–strain characterist...
Structural analysis of steel frames is typically performed using beam elements. Since these elements...
A conceptually new approach which recognises the continuous nature of the stress–strain characterist...
Material yielding on one hand and local buckling on the other hand limit the cross-section capacity ...
The cross-sectional behaviour of steel sections can be shown to be influenced by two extreme behavio...
Current stainless steel design standards are based on elastic, perfectly plastic material behaviour ...
Current stainless steel design standards are based on elastic, perfectly plastic material behaviour ...
This report presents a general design procedure for calculating the moment capacity of sections cont...
Through the development of an innovative full cross-section tensile testing method, a programme of e...