Yating Liang scite author profile

A principal issue in any co-rotational approach for large displacement analysis of plates and shells is associated with the specific choice of the local reference system in relation to the current deformed element configuration. Previous approaches utilised local co-rotational systems which are invariant to nodal ordering, a characteristic that is deemed desirable on several fronts; however, the associated definitions of the local reference system suffered from a range of shortcomings, including undue complexity, dependence on the local element formulation, and possibly an asymmetric tangent stiffness matrix. In this paper, new definitions of the local co-rotational system are proposed for quadrilateral and triangular shell elements, which achieve the invariance characteristic to the nodal ordering in a relatively simple manner and address the aforementioned shortcomings. The proposed definitions utilise only the nodal coordinates in the deformed configuration, where two alternative definitions, namely bisector and zero-macrospin definitions, are presented for each of quadrilateral and triangular finite elements. In each case, the co-rotational transformations linking the local and global element entities are presented, highlighting the simplicity of the proposed approach. Several numerical examples are finally presented to demonstrate the effectiveness and relative accuracy of the alternative definitions proposed for the local corotational system.

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Testing, numerical modelling and design of S690 high strength steel welded I-section stub columns

Sun

Liang

Zhao

2019

Journal of Constructional Steel Research

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Experimental and numerical studies of austenitic stainless steel CHS stub columns after exposed to elevated temperatures

Liang

Zhao

2019

Journal of Constructional Steel Research

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Flexural-torsional buckling behaviour of fixed-ended hot-rolled austenitic stainless steel equal-leg angle section columns

Liang

Jeyapragasam

Zhang

et al. 2019

Journal of Constructional Steel Research

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Yating Liang

Stainless steel channel sections under combined compression and minor axis bending – Part 1: Experimental study and numerical modelling

Bisector and zero‐macrospin co‐rotational systems for shell elements

Testing, numerical modelling and design of S690 high strength steel welded I-section stub columns

Experimental and numerical studies of austenitic stainless steel CHS stub columns after exposed to elevated temperatures

Flexural-torsional buckling behaviour of fixed-ended hot-rolled austenitic stainless steel equal-leg angle section columns

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