1) isostatic deformation
等压变形
2) equal channel angular pressing
等径角挤压变形
1.
Influence of Original Structure on Equal Channel Angular Pressing Deformation of 304L Extra-Low Carbon Stainless Steel;
原始组织对304L超低碳奥氏体不锈钢等径角挤压变形的影响
2.
The microstructure evolution of as-cast 304L austenitic stainless steel during equal channel angular pressing(ECAP) from 1-4 passes was investigated.
研究了经1~4道次等径角挤压变形(ECAP)后,铸态304L奥氏体不锈钢微观结构的演变,同时测定了ECAP变形后的力学性能。
3.
The microstructure and properties of austenitic stainless steel produced by forging or equal channel angular pressing(ECAP) and followed by recrystallization annealing treatment were investigated.
在试验的基础上研究了经2种塑性变形(锻造、等径角挤压变形)的奥氏体不锈钢完全再结晶后的组织与性能。
3) Equivalent plastic compressive deformation
等效压缩变形
1.
The effect of welding temperature on equivalent plastic compressive deformation of solid - state welding;
焊接温度对固态焊接中等效压缩变形的影响
4) isothermal deformation
等温变形
1.
Flow stress characteristics of isothermal deformation at high temperature for 7075 aluminum alloy;
7075铝合金高温等温变形的流变应力特征
2.
By isothermal deformation of as-cast Ti-6Al-4V (ZTC4) at different plastic technologic parameter,the regulations of deformation stress-strain and microstructure deformed have been obtained.
采用不同的塑性工艺参数对铸造Ti-6Al-4V(ZTC4)进行等温变形分析,得出变形应力-应变规律和变形后的内部组织规律;对ZTC4钛合金的原始组织进行了分析,得出原始组织形态的影响规律。
3.
An effective method for grain refining of γ-TiAl alloy was put forward based on the study results of compression behavior and microstructure evolution during isothermal deformation.
研究发现,如果γ-TiAl合金锭具有一定的细晶组织便可以在(α2+γ)2相区完成等温变形而不产生裂纹。
5) equivalent deformation
等效变形
1.
The key problem in the numerical simulation is how to transform the given peening parameters into the equivalent nodal forces, which is solved by the equivalent deformation method proposed by the author.
在分析窄条喷丸成形的变形特点基础上 ,提出了通过等效变形实现数值模拟的方法。
6) equal deformation
等变形
1.
Equal energy,equal deformation tamping and expansion gangue pile is a new strengthening method,which not only has the effect of tamping and expansion,but also strengthens complex earth-fill.
等能量、等变形夯扩挤密矸石桩是一种地基加固新技术。
补充资料:挤压变形状态
挤压变形状态
extrusion deformation state
j iyo bionxing zhuangtoi挤压变形状态(extrusion deformationstate)挤压时塑性变形区内金属的变形状态通常是两向压缩变形和一向延伸变形,即径向压缩变形。r,周向压缩变形。。及轴向延伸变形。1(见图)。根据塑性变形理论,在轴对称条件下,可认为周向压缩变形和径向压缩变形相等,即‘~劫。挤压全属的流动过程分3个阶段,每个阶段的变形状态不同:(1)在填充挤压变形阶段,锭坯充满挤压筒及模孔,锭坯的变形状态相当住 挤压变形状态示意图 1一挤压筒;2一挤压模;3一挤压垫;4一挤压杆于自由傲粗变形。(2)在基本挤压阶段,一般情况下,其主要变形特点是金属的流动发生层流不交错,变形状态为两向压缩和一向延伸。(3)在紊流挤压阶段,垫片进入塑性变形区中迫使金属向着挤压轴线方向。由周边向中心发生剧烈的横向流动。除部分金属保持两向压缩和一向延伸之外,有相当一部分金属处于一向压缩和两向延伸的变形状态。 (温景抹) \
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参考词条