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1)  microstructural evolution
显微组织演化
1.
Research situation of the effect of different process routes on the microstructural evolution of materials in ECAP;
等径角挤压法工艺路线影响材料显微组织演化的研究概况
2.
The authors reviewed thepresent state of technology in this field, including the current status of researeh and development on theprinciple, deformation behaviour and microstructural evolution during ECAP, structural charaterizationand .
综述了等径角挤压制备超细晶材料领域的最新研究进展,包括等径角挤压的工艺原理、显微组织演化规律、等径角挤压材料微机组织特征和力学性能等。
3.
The experimental results show that the microstructural evolution is divided into three stages according to different evolution mechanisms: the mechanical splitting mechanism with the grain size fined from 45 μm to 12 μm;the deformation-induced dynamic recrystallization .
通过金相组织观察、显微硬度测试、扫描电镜分析和应变速率为5×10-5/s的室温拉伸力学性能实验,分别探讨多向锻造中ME20M镁合金的显微组织演化机制和力学性能变化规律。
2)  microstructure evolution
显微组织演化
1.
Effect of temperature on microstructure evolution of 7075 alloy during hot deformation;
温度对7075铝合金热变形显微组织演化的影响
3)  microstructure evolution model
显微组织演化模型
4)  Microstructure Evolution
显微组织演变
1.
Effect of electrolytic copper powder and atomizing copper powder to microstructure evolution during SPS;
电解铜粉和雾化铜粉对SPS过程中显微组织演变的影响
5)  Microstructural evolution
显微组织演变
1.
In order to investigate the microstructural evolution of Ni3Al intermetallic from Al and Ni powders during self-propagating high-temperature synthesis (SHS), a combustion front quenching method (CFQM) was used for extinguishing the propagating combustion wave.
为了研究用Ni粉和Al粉自蔓延高温合成(SHS)Ni3Al过程中的显微组织演变,用燃烧波淬熄法使蔓延的燃烧波自行熄灭,用扫描电子显微镜(SEM)及能谱仪(EDS)观察和分析了淬熄试样中的显微组织,测试了燃烧温度,并用X射线衍射(XRD)分析了合成产物的相组成。
2.
The microstructural evolution pattern of Al/Mg2Si composite during self-propagating high-temperature synthesis(SHS) was studied by means of combustion front quenching.
采用燃烧波前沿淬熄法研究Al/Mg2Si复合材料在自蔓延高温合成(SHS)过程中的显微组织演变规律。
6)  microstructure evolution
微观组织演化
1.
Therefore,predicting and controlling microstructure evolution are key problems in isothermal local loading process.
为此,文章采用内变量法,建立了TA15合金高温变形微观组织演化物理模型,并与有限元软件DEFORM 3D结合对TA15合金筋板件等温局部加载成形过程等轴α相晶粒尺寸演化进行数值模拟。
2.
In this paper,the research progress is reviewed about the microstructure evolution and nanocrystallization mechanism of metallic materials synthesized by the plastic deformation at high strain rate,such as surface mechanical attrition and high energy ball milling.
作者对金属材料在表面机械研磨和高能球磨这2种高应变率塑性变形条件下的微观组织演化及纳米晶形成机理的研究和最新进展进行了综述,旨在更好地理解该力学条件下金属材料的纳米化现象,以促进纳米材料的制备研究。
补充资料:TiAl合金(金属间化合物)显微组织


TiAl合金(金属间化合物)显微组织


  T·Al台金(金属间化合物)显微组织
  
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