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http://dx.doi.org/10.3740/MRSK.2013.23.7.392

Microstructure and Mechanical Property in Thickness Direction of a Deoxidized Low-Phosphorous Copper Sheet Processed by Two-Pass Differential Speed Rolling  

Lee, Seong-Hee (Department of Advanced Materials Science and Engineering, Mokpo National University)
Jang, Jun-Hyuk (Department of Advanced Materials Science and Engineering, Mokpo National University)
Utsunomiya, Hiroshi (Department of Materials Science and Engineering, Graduate School of Engineering, Osaka University)
Publication Information
Korean Journal of Materials Research / v.23, no.7, 2013 , pp. 392-398 More about this Journal
Abstract
A two-pass differential speed rolling(DSR) was applied to a deoxidized low-phosphorous copper alloy sheet in order to form a homogeneous microstructure. Copper alloy with a thickness of 3 mm was rolled to 75 % reduction by two-pass rolling at $150^{\circ}C$ without lubrication at a differential speed ratio of 2.0:1. In order to introduce uniform shear strain into the copper alloy sheet, the second rolling was performed after turning the sample by $180^{\circ}$ on the transverse direction axis. Conventional rolling(CR), in which the rotating speeds of the upper roll and lower roll are identical to each other, was also performed by two-pass rolling under a total rolling reduction of 75 %, for comparison. The shear strain introduced by the conventional rolling showed positive values at positions of the upper roll side and negative values at positions of the lower roll side. However, samples processed by the DSR showed zero or positive values at all positions. {100}//ND texture was primarily developed near the surface and center of thickness for the CR, while {110}//ND texture was primarily developed for the DSR. The difference in misorientation distribution of grain boundary between the upper roll side surface and center regions was very small in the CR, while it was large in the DSR. The grain size was smallest in the upper roll side region for both the CR and the DSR. The hardness showed homogeneous distribution in the thickness direction in both CR and DSR. The average hardness was larger in CR than in DSR.
Keywords
differential speed rolling; copper alloy; microstructure; electron backscatter diffraction(EBSD); strain;
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