Metallurgical Abstracts on Light Metals and Alloys vol.54
Quantitative analysis of the Portevin-Le Chatelier effect by combining digital image correlation and dead-weight-type tensile test
Shigeto Yamasaki*, Tomoki Miike**, Masatoshi Mitsuhara***, Hideharu Nakashima***, Ryutaro Akiyoshi****, Takahiko Nakamura**** and Shimpei Kimura****
*Department of Materials Science and Engineering, Kyushu University, Fukuoka 819-0395, Japan
**Interdisciplinary Graduate School of Engineering Sciences, Kyushu University, Kasuga 819-0395, Japan
***Department of Advanced Materials Science, Kyushu University, Kasuga 816-8580, Japan
****Automotive Material & Process Development Section, Aluminum Sheets & Coils Development Department, Steel & Aluminum Business, KOBE STEEL, Ltd., Moka 321-4367, Japan
[Published in Materials Science and Engineering A, Vol. 816 (2021), 141277]
https://doi.org/10.1016/j.msea.2021.141277
nakashima.hideharu.792[at]m.kyushu-u.ac.jp
Key Words:Aluminum alloy, Portevin-Le Chatelier effect, Digital image correlation, Dead-weight-type tensile test, Activation volume, Cluster
A quantitative evaluation method of a serration deformation behavior by a dead-weight tensile test combined with a strain measurement by a DIC method is proposed. This method applies to binary solid solution aluminum alloys and a ternary cluster strengthened aluminum alloy. In the dead-weight tensile test, the serrated flow was measured as a stress-strain curve with a stepped-shape divided into two stages of a stress rising phase and a strain burst phase. By adopting this tensile test, the serration deformation behavior can be measured with an extremely reproducibility. It was confirmed that an elastic deformation occurs predominantly in the stress rising phase, and this deformation behavior is discussed in relation to the concentration of solid solution elements. Propagation of PLC bands has occurred in the strain burst phase. An activation volume obtained from the strain rate in the PLC bands was in good agreement with a calculated value based on a distribution interval assuming a regular square distribution of solute elements. For the ternary alloy strengthened by clusters, it is also shown that this method can be applied to the qualitative estimation of the change in the residual amount of the solid solution element in the matrix during natural aging.
The stepped shape stress-strain curves measured by the dead-weight-type tensile test and the distribution of the strain rate within the PLC band visualized by the DIC method.