1. Complex Stress-Strain Relations of Tubular Materials Studied With a Flexible Hydroforming System
- Author
-
Yanli Lin, Zhubin He, G. N. Chu, Yongda Yan, and S.J. Yuan
- Subjects
Hydroforming ,Engineering ,business.industry ,Mechanical Engineering ,Stress–strain curve ,Constitutive equation ,Biaxial tensile test ,02 engineering and technology ,Structural engineering ,021001 nanoscience & nanotechnology ,Power law ,020303 mechanical engineering & transports ,0203 mechanical engineering ,Experimental system ,Mechanics of Materials ,Hardening (metallurgy) ,General Materials Science ,0210 nano-technology ,business ,Power function - Abstract
Extruded aluminum alloy tubes present strong anisotropic properties, making its deformation very sensitive to stress states. To better characterize a proper constitutive relationship, the use of experimental stress-strain response with biaxial stress states would be more suitable than that of a common uniaxial test. To achieve this purpose, an attractive testing method and homologous experimental system (i.e., hydro-bulging system) were developed. Different proportional and non-proportional loading conditions could be performed with this experimental system. Hydro-bulging tests under three typical proportional loading paths were done. A fourth-order hardening model proposed by the authors was used to reproduce these experimental stress-strain relations and compared them with the results predicted using a power law relationship. Regression results predicted by the fourth-order hardening model had a good consistency with the distribution of experimental data. Deviations of the fourth-order hardening model are much less than that obtained by a power law. The maximum deviation introduced by the power function is at least 2.6 times greater than that introduced by the fourth-order function. Therefore, the use of a new regression model to treat experimental data would improve the predicting accuracy of a related constitutive relation efficiently and further ensure the predicting accuracy regarding a hydroforming simulation.
- Published
- 2016
- Full Text
- View/download PDF