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静磁场深冷处理对铝黄铜组织和性能的影响 被引量:5
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作者 王宏明 储强泽 +2 位作者 李桂荣 程江峰 朱弋 《材料导报》 EI CAS CSCD 北大核心 2017年第10期82-86,共5页
对铝黄铜进行静磁场条件下不同时间的深冷处理,并与初始试样和同时间单独深冷试样进行对比分析,结果表明静磁场能够进一步提高铝黄铜的强韧性。在T=24h时,MDCT试样的强韧性最好,其抗拉强度为602.5 MPa,延伸率为7.2%,较初始样分别提高了6... 对铝黄铜进行静磁场条件下不同时间的深冷处理,并与初始试样和同时间单独深冷试样进行对比分析,结果表明静磁场能够进一步提高铝黄铜的强韧性。在T=24h时,MDCT试样的强韧性最好,其抗拉强度为602.5 MPa,延伸率为7.2%,较初始样分别提高了6.4%和53.2%,较DCT24试样分别提高3.1%和28.6%。分析原因在于从深冷回复到室温过程中铝黄铜发生了回复再结晶,起到了细晶强化作用;同时基于磁致塑性效应,位错运动灵活性增加,有助于提高延伸率和塑性变形能力。另外,静磁场在深冷过程中起到抑制铝黄铜α→β相转化和促进γ相转变的作用,使得MDCT试样平均晶粒尺寸较DCT试样大。 展开更多
关键词 静磁场 深冷 铝黄铜 晶粒转动 微观组织 力学性能
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Tensile properties and microstructure of 2024 aluminum alloy subjected to the high magnetic field and external stress 被引量:3
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作者 李桂荣 薛飞 +4 位作者 王宏明 郑瑞 朱弋 储强泽 程江峰 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第10期262-270,共9页
In order to explore the dependence of plasticity of metallic material on a high magnetic held,the effects of the different magnetic induction intensities(H = 0 T,0.5 T,1 T,3 T,and 5 T) and pulses number(N = 0,10,20... In order to explore the dependence of plasticity of metallic material on a high magnetic held,the effects of the different magnetic induction intensities(H = 0 T,0.5 T,1 T,3 T,and 5 T) and pulses number(N = 0,10,20,30,40,and 50) on tensile strength(σ;) and elongation(δ) of 2024 aluminum alloy are investigated in the synchronous presences of a high magnetic held and external stress.The results show that the magnetic held exerts apparent and positive effects on the tensile properties of the alloy.Especially under the optimized condition of H;=1 T and N;=30,the σ;and 8 are 410 MPa and 17% that are enhanced by 9.3% and 30.8% respectively in comparison to those of the untreated sample.The synchronous increases of tensile properties are attributed to the magneto-plasticity effect on a quantum scale.That is,the magnetic held will accelerate the state conversion of radical pair generated between the dislocation and obstacles from singlet to the triplet state.The bonding energy between them is meanwhile lowered and the moving flexibility of dislocations will be enhanced.At H;= 1 T and N;= 30,the dislocation density is enhanced by 1.28 times.The relevant minimum grain size is 266.1 nm,which is reduced by 35.2%.The grain rehning is attributed to the dislocation accumulation and subsequent dynamic recrystallization.The(211) and(220) peak intensities are weakened.It is deduced that together with the recrystallization,the hne grains will transfer towards the slip plane and contribute to the slipping deformation. 展开更多
关键词 2024 aluminum alloy tensile strength ELONGATION magneto plasticity effect
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