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1)  ECAE(equal channel angular extrusion)
ECAE(等径角挤压)
2)  Equal channel angular extrusion (ECAE)
等通道角挤压(ECAE)
3)  equal channel angular pressing
等径角挤压
1.
Numerical study on equal channel angular pressing based on element-free Galerkin method;
等径角挤压工艺的无网格数值模拟研究
2.
Effect of hydrostatic stress on porous metal during equal channel angular pressing;
静水压力对粉末多孔材料等径角挤压过程的影响
4)  equal channel angular extrusion
等径角挤压
1.
Finite element simulation of equal channel angular extrusion process of Mg alloy;
镁合金等径角挤压过程有限元模拟
2.
For developing the super-plastic forming technology of precision parts of Magnesium alloys,the fine grained AZ91 alloy is prepared through equal channel angular extrusion process,then using the billets with fine grain,the super-plastic die forging processes of two precision gear parts are investigated.
以开发镁合金精密零件超塑性成形技术为目标,以铸态AZ91镁合金为实验材料,采用等径角挤压工艺对合金进行了组织细化,并用所制备的细晶材料为坯料对两种齿轮类精细零件进行了超塑性成形实验。
3.
Distribution of die stress in equal channel angular extrusion(ECAE) is simulated with non-linear finite-element software MSC.
M arc模拟了等径角挤压(Equal Channel Angu lar Extru-sion,ECAE)过程中模具的应力分布。
5)  equal channel angular pressing(ECAP)
等径角挤压
1.
The influence of the microstructure evolution of materials on the strain hardening,the stress and the strain is the key to make metal materials forming by equal channel angular pressing(ECAP).
研究材料微观组织的演化对应力、应变以及应变硬化等问题的影响,是实现等径角挤压成形技术的关键。
2.
25%Cu alloy was suffered from equal channel angular pressing(ECAP) in this experiment,in which an ECAP die with the inner angle =90°,outer angle ψ=30°.
本文使用内角为90°、外角为30°的模具对2A12铝合金进行了等径角挤压实验,并采用H itach iS-800透射电镜(TEM)研究了材料内部裂纹的产生和扩展。
3.
The extrusion deformation experiments for 6061 aluminium alloy were carried by using composite extrusion technology,which combined equal channel angular pressing(ECAP) and cyclic channel die compression(CCDC).
采用等径角挤压和反复镦挤相结合的复合挤压技术,对6061铝合金进行挤压变形实验。
6)  ECAP
等径角挤压
1.
Microstructure and Properties of Cu-Cr Alloy Processed by ECAP;
铜铬合金等径角挤压后的组织与性能
2.
Present Status of the Ultra-fine Grain Materials Processed by Equal Channel Angular Pressing(ECAP);
等径角挤压法制备超细晶的研究现状
3.
Three-dimensional coupled thermo-mechanical FEM analysis of TC4 alloy during ECAP
TC4合金等径角挤压三维热力耦合有限元分析
补充资料:EC
    乙基纤维素分子式为[C6H7O2(OC2H5)3]n。是由氯乙烷与碱纤维素醚化而得。白色粒状固体或纤维,相对密度1.07-1.18。软化点100-130 ℃。耐寒性优良,-40℃时仍有足够的弹性。不易燃烧,吸湿性小,透明度高。具有高度的化学稳定性。
    EC醚化度大小影响溶解性、吸水性、力学性能和热性能。醚化度升高,在碱液中溶解变小,而在有机溶剂中溶解度增大。溶于许多有机溶剂。常用的溶剂是甲苯/乙醇为4/1〔重量〕的混合溶剂。醚化度提高,软化点和吸湿性降低,使用温度-60 ℃~85℃。拉伸强度13.7-54.9 MPa。耐热性(120 ℃/16h)无变黄、结块、焦化。可用于配制胶粘剂。贮存于阴凉、通风、干燥的库房内。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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