A review of shell finite elements and corotational theories

Hanryk Stolarski; Ted Belytschko; Sang Ho Lee

A review of shell finite elements and corotational theories

Hanryk Stolarski, Ted Belytschko, Sang Ho Lee

Department of Civil and Environmental Engineering

Research output: Contribution to journal › Review article › peer-review

40 Citations (Scopus)

Abstract

The development of shell finite elements is reviewed. As a background for these discussions, some of the controversies and difficulties in classical shell theories are reviewed and the features of shell bending behavior which were elucidated analytically are recalled. The description of shell elements focuses on three types of methods: mixed methods, assumed strain methods and discrete Kirchhoff methods. In Section 4, a corotational theory and its application to shells are presented; as part of this development, the kinematics of degenerated continuum formulations are compared to the Koiter-Sanders theory.

Original language	English
Pages (from-to)	125-212
Number of pages	88
Journal	Computational Mechanics Advances
Volume	2
Issue number	2
Publication status	Published - 1995 Apr

Cite this

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AB - The development of shell finite elements is reviewed. As a background for these discussions, some of the controversies and difficulties in classical shell theories are reviewed and the features of shell bending behavior which were elucidated analytically are recalled. The description of shell elements focuses on three types of methods: mixed methods, assumed strain methods and discrete Kirchhoff methods. In Section 4, a corotational theory and its application to shells are presented; as part of this development, the kinematics of degenerated continuum formulations are compared to the Koiter-Sanders theory.

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A review of shell finite elements and corotational theories

Abstract

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