Journal
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
Volume 887, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2023.145774
Keywords
Magnesium alloy; Hard plate accumulative roll bonding; Microstructure; Mechanical properties
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In this study, AZ31 magnesium alloy sheet was prepared using the HP-ARB process for the first time. Compared to traditional ARB technology, the HP-ARB sheet showed remarkable improvements in mechanical properties. After two passes, the HP-ARB sheet had a decreased grain size, increased tensile strength, and improved elongation. The HP-ARB process also improved stress distribution on the sheet and promoted dislocation slip, providing a new strategy for the manufacturing of high performance magnesium alloy sheet.
Magnesium alloy sheet are an ideal choice for achieving material and structural light weighting. Traditional ARB technology can significantly reduce the size of magnesium alloy sheet, but it is faced with the challenge of strong plastic inversion. In addition, it is easy to produce edge cracking defects, and it is also difficult to control the quality of the sheet. In this study, we prepared AZ31 magnesium alloy sheet by HP-ARB process for the first time. The results show that compared to ARB, the HP-ARB sheet has remarkable improvements in and mechanical properties.After two passes, the average grain size of HP-ARB decreased from 6.19 gm to 4.58 gm, tensile strength reaches 291 MPa, and the elongation is 10.1%, which significantly increased to 55.4% compared with ARB. HP-ARB has the ability to transform part of shear stress into compressive stress, which improves the stress distribution on the sheet. On one hand, a large amount of energy stored in dislocations provides energy for DRX, which makes the process more complete, leading to microstructure refinement and grain orientation randomization. This leads to the deviation of texture orientation to TD direction, which leads to the decrease of pole density and weakening of the strong basal texture. On the other hand, dislocation density (rho(D)) of the sheet is relatively low. The average Schmidt factor of prismatic slip and pyramidal slip in the HP-ARB process is higher, which is beneficial to dislocation slip, thus promoting an increase of sheet elongation. This provides a new strategy for the forming and manufacture of high performance magnesium alloy sheet.
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