Vol. 1, No. 1, 2006
Download This Article
with up-to-date links in citations
Download this article. For Screen
For Printing
Recent Issues
Volume 4, Issue 6
Volume 4, Issue 5
Volume 4, Issue 4
Volume 4, Issue 3
Volume 4, Issue 2
Volume 4, Issue 1
Volume 3, Issue 10
Volume 3, Issue 9
Volume 3, Issue 8
Volume 3, Issue 7
Volume 3, Issue 6
Volume 3, Issue 5
Volume 3, Issue 4
Volume 3, Issue 3
Volume 3, Issue 2
Volume 3, Issue 1
Volume 2, Issue 10
Volume 2, Issue 9
Volume 2, Issue 8
Volume 2, Issue 7
Volume 2, Issue 6
Volume 2, Issue 5
Volume 2, Issue 4
Volume 2, Issue 3
Volume 2, Issue 2
Volume 2, Issue 1
Volume 1, Issue 8
Volume 1, Issue 7
Volume 1, Issue 6
Volume 1, Issue 5
Volume 1, Issue 4
Volume 1, Issue 3
Volume 1, Issue 2
Volume 1, Issue 1
The Journal
Cover
Editorial Board
Research Statement
Scientific Advantage
Submission Guidelines
Submission Page
Subscription Prices
License Agreement
Test your IP address
PACAM XI
Contacts

Yield functions and plastic potentials for BCC metals and possibly other materials

Richard M. Christensen

Abstract

Yield functions and plastic potentials are expressed in terms of the invariants of the stress tensor for polycrystalline metals and other isotropic materials. The plastic volume change data of Richmond is used to evaluate the embedded materials properties for some bcc metals and one polymer. A general form for the plastic potential is found that is intended to represent and cover a wide range of materials types.
Keywords

yield functions, plastic potentials, BCC Metals

Authors
Richard M. Christensen
Lawrence Livermore National Laboratory
P.O. Box 808, L–356
Livermore CA 94550 		Department of Aeronautics and Astronautics
Stanford University
Stanford, CA 94305