Investigations on workability of commercial purity aluminum processed by equal channel angular pressing

In this study the flow properties after equal channel angular pressing (ECAP) were investigated using commercial purity aluminum. Commercial purity aluminum samples were subjected to ECAP for up to four passes with a die angle of 90 • using two different processing routes. Compression testing was us

The authors regret the following errors which appeared in the above article. Explanation of the errors and related corrections are below. The SPC parameter for ECAP with a 90 • die followed by compression in x direction has been reported to be -√ 3/2 by Li. But in the text it is wrongly mentioned th

Experiments were conducted on two commercial aluminum alloys, Al-6061 and Al-7034, to evaluate the development of any plastic anisotropy during processing by equal-channel angular pressing (ECAP). After pressing through various numbers of passes, compression tests were conducted at room temperature

Formability of aluminum alloys poses a major challenge for their wider application in automotive sheet metal components as the deep drawability of aluminum is low when compared to steel. This is indicated by the low limiting drawability ratio (LDR) of aluminum sheet blanks which is characterized by

## Abstract The microstructure of the CuNi alloy specimen ER is mainly elongated coarse grains. However, the microstructure of the specimen EH is inhomogeneous and some recrystallized sub‐grains form. In addition, the misorientation angles of the specimens ER and EH are mainly smaller than 15°, sh