A new integration algorithm for the finite element analysis of elasto-plastic problems

Zhongwen (Kevin) Ding; Qinghua Qin; Michael Cardew-Hall

A new integration algorithm for the finite element analysis of elasto-plastic problems

Zhongwen (Kevin) Ding, Qinghua Qin, Michael Cardew-Hall

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › peer-review

Abstract

The Finite Element analysis of the elastic-plastic behavior is of fundamental importance in automobile industry. To predict accurately the final geometry of the structure and the distribution of strain and stress, accurate integration of the constitutive laws over the strain path is essential. Our objective in this paper is to develop an effective and accurate stress integration scheme for the analysis of three-dimensional sheet metal forming problems. The proposed algorithm is based on the explicit "substepping" schemes incorporating with the stress correction scheme. The proposed algorithms have been implemented into ABAQUS/Explicit via User Material Subroutine (VUMAT) interface platform. The results indicate that the explicit schemes with local truncation error control, together with a subsequent check of the consistency conditions, lead to the accurate results for integrating large elastic plastic problems.

Original language	English
Title of host publication	Proceedings of the 9th International Conference on Inspection, Appraisal, Repairs & Maintenance of Structures
Editors	Wei-Xin Ren, K.C. Gary Ong, Er John S.Y. Tan
Place of Publication	Singapore
Publisher	CI-Premier Pte Ltd
Pages	209-216
Edition	Peer Reviewed
ISBN (Print)	9810535481
Publication status	Published - 2005
Event	International Conference on Inspection, Appraisal, Repairs & Maintenance of Structures 2005 - Fuzhou China Duration: 1 Jan 2005 → …

Conference

Conference	International Conference on Inspection, Appraisal, Repairs & Maintenance of Structures 2005
Period	1/01/05 → …
Other	October 20 2005

Cite this

Ding, Zhongwen (Kevin) ; Qin, Qinghua ; Cardew-Hall, Michael. / A new integration algorithm for the finite element analysis of elasto-plastic problems. Proceedings of the 9th International Conference on Inspection, Appraisal, Repairs & Maintenance of Structures. editor / Wei-Xin Ren, K.C. Gary Ong, Er John S.Y. Tan. Peer Reviewed. ed. Singapore : CI-Premier Pte Ltd, 2005. pp. 209-216

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title = "A new integration algorithm for the finite element analysis of elasto-plastic problems",

abstract = "The Finite Element analysis of the elastic-plastic behavior is of fundamental importance in automobile industry. To predict accurately the final geometry of the structure and the distribution of strain and stress, accurate integration of the constitutive laws over the strain path is essential. Our objective in this paper is to develop an effective and accurate stress integration scheme for the analysis of three-dimensional sheet metal forming problems. The proposed algorithm is based on the explicit {"}substepping{"} schemes incorporating with the stress correction scheme. The proposed algorithms have been implemented into ABAQUS/Explicit via User Material Subroutine (VUMAT) interface platform. The results indicate that the explicit schemes with local truncation error control, together with a subsequent check of the consistency conditions, lead to the accurate results for integrating large elastic plastic problems.",

author = "Ding, \{Zhongwen (Kevin)\} and Qinghua Qin and Michael Cardew-Hall",

year = "2005",

language = "English",

isbn = "9810535481",

pages = "209--216",

editor = "\{Wei-Xin Ren, K.C. Gary Ong, Er John S.Y. Tan\}",

booktitle = "Proceedings of the 9th International Conference on Inspection, Appraisal, Repairs \& Maintenance of Structures",

publisher = "CI-Premier Pte Ltd",

edition = "Peer Reviewed",

note = "International Conference on Inspection, Appraisal, Repairs \& Maintenance of Structures 2005 ; Conference date: 01-01-2005",

}

Ding, Z, Qin, Q & Cardew-Hall, M 2005, A new integration algorithm for the finite element analysis of elasto-plastic problems. in W-XRKCGOEJSYT (ed.), Proceedings of the 9th International Conference on Inspection, Appraisal, Repairs & Maintenance of Structures. Peer Reviewed edn, CI-Premier Pte Ltd, Singapore, pp. 209-216, International Conference on Inspection, Appraisal, Repairs & Maintenance of Structures 2005, 1/01/05.

A new integration algorithm for the finite element analysis of elasto-plastic problems. / Ding, Zhongwen (Kevin); Qin, Qinghua; Cardew-Hall, Michael.
Proceedings of the 9th International Conference on Inspection, Appraisal, Repairs & Maintenance of Structures. ed. / Wei-Xin Ren, K.C. Gary Ong, Er John S.Y. Tan. Peer Reviewed. ed. Singapore: CI-Premier Pte Ltd, 2005. p. 209-216.

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › peer-review

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AU - Qin, Qinghua

AU - Cardew-Hall, Michael

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N2 - The Finite Element analysis of the elastic-plastic behavior is of fundamental importance in automobile industry. To predict accurately the final geometry of the structure and the distribution of strain and stress, accurate integration of the constitutive laws over the strain path is essential. Our objective in this paper is to develop an effective and accurate stress integration scheme for the analysis of three-dimensional sheet metal forming problems. The proposed algorithm is based on the explicit "substepping" schemes incorporating with the stress correction scheme. The proposed algorithms have been implemented into ABAQUS/Explicit via User Material Subroutine (VUMAT) interface platform. The results indicate that the explicit schemes with local truncation error control, together with a subsequent check of the consistency conditions, lead to the accurate results for integrating large elastic plastic problems.

AB - The Finite Element analysis of the elastic-plastic behavior is of fundamental importance in automobile industry. To predict accurately the final geometry of the structure and the distribution of strain and stress, accurate integration of the constitutive laws over the strain path is essential. Our objective in this paper is to develop an effective and accurate stress integration scheme for the analysis of three-dimensional sheet metal forming problems. The proposed algorithm is based on the explicit "substepping" schemes incorporating with the stress correction scheme. The proposed algorithms have been implemented into ABAQUS/Explicit via User Material Subroutine (VUMAT) interface platform. The results indicate that the explicit schemes with local truncation error control, together with a subsequent check of the consistency conditions, lead to the accurate results for integrating large elastic plastic problems.

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A new integration algorithm for the finite element analysis of elasto-plastic problems

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