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Texture Evolution in AM30 Mg Alloy Deformed along Different Strain Paths

机译：沿不同应变路径变形的AM30镁合金的组织演变

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The evolution of texture in an AM30 Mg alloy was examined after deformation by uniaxial tension, uniaxial compression and ring hoop tension testing (RHTT). Temperatures from ambient to 200°C were covered at a strain rate of 0.1/s. The samples were cut from extruded AM30 Mg alloy tubes. Specimens deformed to various strain levels were examined by optical microscopy and electron backscattered diffraction (EBSD) techniques. The results indicate that the initial extrusion texture and strain path together play important roles in the formation of different types of twins, which in turn significantly influence the evolution of the deformation texture. Contraction and double twinning are the dominant twinning mechanisms in uniaxial tension, while extension twinning prevails in uniaxial compression and RHTT. In addition, the deformation textures indicate that the active twinning planes are the ones with the highest Schmid factors.

机译：变形后，通过单轴拉伸，单轴压缩和环箍拉伸测试（RHTT）来检查AM30 Mg合金中织构的演变。以0.1 / s的应变速率覆盖从环境温度到200℃的温度。从挤压的AM30 Mg合金管中切出样品。通过光学显微镜和电子背散射衍射（EBSD）技术检查了变形到各种应变水平的样品。结果表明，初始挤压织构和应变路径在不同类型孪晶的形成中起着重要作用，进而显着影响变形织构的演变。收缩和孪生孪生是单轴拉伸的主要孪生机理，而延伸孪生主要存在于单轴压缩和RHTT中。此外，变形纹理表明活动孪晶面是具有最高Schmid因子的孪晶面。

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《Magnesium Technology 2007》|2007年|23-27|共5页
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作者
L. Jiang; J.J. Jonas; R. Mishra; A.A. Luo; A.K. Sachdev; S. Godet;
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正文语种
中图分类镁及其合金的热处理;
关键词
texture; extruded Mg alloy tube; twinning; strain path; schmid factor; EBSD;

机译：质地;镁合金挤压管;孪生应变路径施密特因子欧洲可持续发展委员会;

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Texture Evolution in AM30 Mg Alloy Deformed along Different Strain Paths

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