Effect of Cold Rolling Reduction on Recrystallization Behaviors of AA5754 Sheets in a Short Annealing Time

Zhen Shan Liu; Pi Zhi Zhao; Jing Wei Zhao

doi:10.4028/www.scientific.net/MSF.913.11

Paper Titles

Preface

Effects of the Delivery Tube Diameter on the Qualities of Cu-9.7Sn-0.2P Alloy Powder Produced by Gas Atomization
p.3

Effect of Cold Rolling Reduction on Recrystallization Behaviors of AA5754 Sheets in a Short Annealing Time
p.11

Property Requirements and Research Progress of Aluminum Alloy Sheets for Automotive Closure
p.18

Thermal Deformation Behavior and Processing Map of Al-Mg-Er Alloy
p.30

Bake Precipitation Behavior in AA5182 Sheet for Can End Stock
p.37

Hot Compression Deformation Behavior and Microstructural Evolution of Al-7.5Zn-1.5Mg-0.2Cu-0.2Zr Alloy
p.43

Effect of Cold Deformation and Annealing on Microstructure and Mechanical Properties of 5083 Aluminum Alloy Sheets
p.49

Microstructural Changes and Thermal Stability of A201, 319s and 2618 Aluminum Alloys during Thermal Exposure
p.55

HomeMaterials Science ForumMaterials Science Forum Vol. 913Effect of Cold Rolling Reduction on...

Effect of Cold Rolling Reduction on Recrystallization Behaviors of AA5754 Sheets in a Short Annealing Time

Abstract:

With the development of light-weighting vehicles, AA5754 sheets are widely utilized as automotive structure material. Its strength and formability are greatly related to the recrystallization process. The recrystallization behavior of AA5754 sheets at high temperature in short time (in minutes) was rarely reported. In present work AA5754 sheets with cold rolling reduction from 58 to 75% was annealed in short time (max 6 min) at 310 and 320°C. Its recrystallization behavior was studied by means of microstructure observation and tensile testing. Microstructure shows that the incubation time varies in the range of 30-120 seconds with cold rolling reduction. The incubation time becomes shorter with the higher cold rolling reduction. According to the tensile strength, the recrystallization kinetics was expressed with JMAK equation. The JMAK equation fitted with recrystallization time gives a better agreement with experimental results than that fitted with annealing time. The calculated apparent activation energy for recrystallization decreases with the increasing cold rolling reduction, indicating that the recrystallization occurred much easier in AA5754 sheet with higher cold rolling reduction.

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Materials Science Forum (Volume 913)

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11-17

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https://doi.org/10.4028/www.scientific.net/MSF.913.11

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Online since:

February 2018

Authors:

Zhen Shan Liu*, Pi Zhi Zhao, Jing Wei Zhao

Keywords:

AA5754 Sheet, Activation Energy, Aluminum Alloys, Cold Rolling Reduction, Recrystallization

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