In this work, analytical models of pure bending are developed to simulate a particular type of bend test and to determine possible errors arising from approximations used in analyzing experimental data. Analytical models proposed for steels include a theoretical solution of pure bending and a series of finite element models, based on the von Mises yield function, are subjected to different stress and strain conditions. The results show that for steel sheets the difference between measured and calculated results of the moment-curvature behaviour is small and the numerical results from the finite element models indicate that experimental results obtained from the test are acceptable in the range of the pure bending operation. Further for magnesium alloys, which exhibit unsymmetrical yielding, the algorithm of the yield function with a linear isotropic hardening model is implemented by programming a user subroutine in Abaqus for bending simulations of magnesium. The simulations using the proposed user subroutine extract better results than those using the von Mises yield function.
History
Pagination
541 - 548
Location
Seoul, Korea
Open access
Yes
Start date
2011-08-21
End date
2011-08-26
ISSN
0094-243X
ISBN-13
9780735409446
ISBN-10
0735409447
Language
eng
Notes
The following article appeared in Analytic Study on Pure Bending of Metal Sheets Jeerachai Supasuthakul, Peter D. Hodgson, and Chunhui Yang, AIP Conf. Proc. 1383, 541 (2011), DOI:10.1063/1.3623655 and may be found at the link provided below.
Publication classification
E2 Full written paper - non-refereed / Abstract reviewed
Copyright notice
2011, American Institute of Physics
Title of proceedings
NUMISHEET 2011 : American Institute of Physics Conference Proceedings