Study on the Asymmetric Hot Rolling of Aluminium Alloy Thick Plate

Yu Bo Zuo; Xing Fu; Jian Zhong Cui; Ping Wang; Lei Li; Xiang Jie Wang

doi:10.4028/www.scientific.net/MSF.794-796.1275

Paper Titles

Role of the Mn-Dispersoids and Mg₂Si Particles in the Recrystallization of Automotive 6xxx Alloys
p.1227

Formation of Microstructural Gradient of A2017 by RBT at Ambient Temperature
p.1233

Ageing of Brazed Aluminium AA6xxx Alloys for Vehicle Radiators
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A Study of Cube Grain Nucleation in a Commercial Al Alloy during In Situ and Discontinuous (Ex Situ) Annealing Experiments
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The Effect of Intermediate Annealing Condition on Recrystallization Behavior in Continuous Cast Al-Mn Alloy
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Recrystallization Behavior of Twin-Roll Cast 3xxx Series Aluminum Alloy
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Effects of Deformation Heating on Constitutive Analysis of a New Al-Mg-Si-Cu Alloy during Hot Compression
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Recrystallization Behavior of High-Strength AA 7075 Alloy Processed by New Short-Cycled Thermo-Mechanical Processing
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Study on the Asymmetric Hot Rolling of Aluminium Alloy Thick Plate
p.1275

HomeMaterials Science ForumMaterials Science Forum Vols. 794-796Study on the Asymmetric Hot Rolling of Aluminium...

Study on the Asymmetric Hot Rolling of Aluminium Alloy Thick Plate

Abstract:

The development of aviation industry demands hot rolled aluminium alloy extra thick plates. However, it is quite difficult to obtain sufficient and uniform deformation of extra thick plate by conventional hot rolling process. The asymmetric hot rolling can generate an additional shear deformation and significantly improve the equivalent strain at the centre of the plate and consequently the uniformity of the microstructure, and mechanical properties. In the present work, the asymmetric rolling (ASR) was achieved by adjusting the diameters of the upper roll and the lower roll and was used to prepare hot rolled thick plate of an aluminium alloy. The effect of the asymmetric hot rolling process on the deformation, shape control, microstructure and mechanical properties was experimentally studied. The results showed that the ASR has a significant effect on metal deformation and can somehow refine microstructure and improve the uniformity of microstructure and properties although plate bending often happens during rolling process. This paper presents these results and gives corresponding discussions.