1) strain exponent
应变指数
1.
A m odified em piricalformula for high te mperature plastic deformation has been presented onbasis of our study and the literature : ⒒ε= A ( σ G) (1 + ε) bexp ( - Δ Q R T) , where signs ±representtensileand co mpressive tests ,and n ,b and Δ Q are stress exponent ,strain exponent and activation energy respec tively .
通过实验和总结文献, 提出一个高温塑性形变的经验公式: ⒒ε= A ( σ G) (1 + ε)bexp ( -Δ Q R T) , 其中±分别表示拉伸和压缩实验, 而n , b, Δ Q 分别代表应力指数, 应变指数和塑变活化能。
2) strain hardening index
应变硬化指数
1.
It was found that the stress-based FLSD differs from the conventional strain-based FLD,and the reasons for the disagreement between them were discussed,the influence of strain hardening index and wall thickness on FLSD was also analyzed.
发现并讨论了FLSD与传统成形极限图FLD之间存在的差别,分析了应变硬化指数n和壁厚t值对FLSD的影响。
2.
Based on the state equation that stress is a function of strain and strain-rate, the differential constitutive equation during superplastic tensile deformation is deduced, and then the mechanical meaning of the strain hardening index in the equation is interpreted.
从应力为应变和应变速率函数的状态方程出发,导出了超塑性拉伸变形的微分本构方程,从而解释了方程中应变硬化指数的力学涵义。
3.
The physical meaning and several determination methods of strain hardening index and thick anisotropy index r are introduced.
介绍了应变硬化指数n值和厚向异性指r值的物理意义和几种不同的测定方法,具有一定的实践指导意义。
3) workhardening exponent
应变强化指数
1.
Then the main cause of decreasing coefficient of normal r value and workhardening exponent n value is given.
基于电镀锌镍钢板脱锌前后的力学性能试验及拉伸试验过程中镀层表面的微观变化 ,分析了电镀锌镍钢板脱锌前后钢板的塑性应变比n和应变强化指数r变化的原
4) sensitivity exponent of strain rate
应变敏感性指数
5) Strain hardening exponent
应变硬化指数
1.
For the steel containing high content martensite,strain hardening exponent n and strain hardening rate significantly increase in the stage of uniform deformation with the increase of martensite.
利用扫描电子显微镜对不同马氏体含量的试样的断口和断口侧面分析,发现在高马氏体含量下,双相钢变形和断裂与马氏体含量和组织形态有关,且其均匀变形阶段的应变硬化指数n值及应变硬化速率也会随着马氏体含量的增加而显著升高。
2.
The results showed that the strain hardening exponent,determined by the Crussard-Jaoul analysis,was affected by dislocation density and twin volume fraction,especially,it was increased greatly with twin.
基于Crussard-Jaoul分析法所得的高锰钢应变硬化指数值的变化主要受位错密度和孪晶体积分数的影响,尤其随着形变孪晶量的增加,应变硬化指数获得迅速提高。
3.
With the indication ball indentation technique ( IBIT),the indentation hardness,young\'s modulus,yield strength,ultimate tensile strength,strain hardening exponent and surface residual stress of the tested joint were simultaneously measured.
焊接接头是一个组织与性能的不均匀体,为了对接头力学性能作出有效评价,采用示值球形压痕技术(IBIT),以步进电动机为动力,用载荷传感器、位移传感器连续获取载荷、位移数据;以触摸屏为操作界面,用PLC进行运动控制和数据处理,研制出压痕性能测试系统,获得被测接头的压痕硬度、弹性模量、屈服强度、抗拉强度、应变硬化指数及表面残余应力。
6) Creep stress exponent
蠕变应力指数
1.
Investigation of creep stress exponent of 80Au/20Sn solder by nanoindentation
纳米压痕法研究80Au/20Sn焊料蠕变应力指数
补充资料:迁移效率指数、偏好指数和差别指数
迁移效率指数、偏好指数和差别指数
迁移效率指数、偏好指数和差别指数迁移效率指数是用于测定两地间人口迁移效率的指标。它是净迁移对总迁移之比。计算公式为:EIM一摇寿纂拼又‘。。上式中,}人么夕一材方}为i、]两地净迁移人数;从少+材户为i、]两地总迁移人数;El入了为迁移效率指数。 EIM的取值范围为。至100,如某一地区的值越大,反映迁移的的影响也越大。如果计算i地区与其他一切地区之间的人口迁移效率指数EIM厂,则: }艺材。一芝Mj、}EIM汀艺。+乏M,(j笋i) 迁移偏好指数是从一个地区向另一地区的实际迁移人数与期望迁移人数之比。计算公式为:____M.___材尸2行一:一二子一一不石一二,么M“ 了厂‘.厂‘、八 }二不十二六二1 、厂厂7上式中,M“为从i地迁到j地的实际迁移量;艺材。为总的人口迁移量;尸为总人口;M尸I,j为迁移偏好指数。通过计算迁移偏好指数,可以反映各地区的相对引力。 迁移差别指数是反映具有某种特征的迁移人口与非迁移人口区别的指数。例如,专业技术人员的人数所占比重,各种文化程度人数所占比重等,以便研究人才流失和其他间题。计算公式为:M‘从IMD、一翌不丝xl。。 .义V‘ N上式中,M为迁移人数;M,为具有i特征的迁移人数;N为非迁移人数;N‘为具有i特征的非迁移人数;了八了D、为迁移差别指数。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条