1) deformation rate
形变速率
1.
The crustal deformation rate and seismic activity in and around Shanghai;
上海及邻区的地壳形变速率与地震活动
2.
When the deformation temperature is at 579 ℃, the holding time is 10 to 30 s, the inner maximum resistance force and the maximum stress of the specimen decreases with increasing deformation rate.
结果表明 ,当保温时间为 1 0~ 30s,变形温度为 579℃时 ,随着形变速率提高 ,试样内部最大抗力及最大应力皆呈上升趋势。
3.
The distributive features of the gradients of vertical crust deformation rates in China are described, the relation between the high-gradient zones and earthquakes (M≥6.
概述了中国大陆地壳垂直形变速率梯度的分布特征,统计了1960~1993年间大陆M≥6。
2) strain rate
变形速率
1.
The strain-stress curves were measured using Gleeble 3800 thermal mechanical simulator at strain rates of 0.
采用Gleeble 3800型热模拟试验机测定了含磷高强无间隙原子钢(IF钢)在变形温度为950,850℃,单道压缩变形量为50%,变形速率为0。
2.
The relationship between volume fraction of ultra-fine grained ferrite and strain rate was investigated for a plain low carbon steel (type Q235).
针对普通碳素钢(Q235类型),研究在Ae3~Ar3温度区间内采用形变诱导铁素体机制获得超细晶铁素体的数量与变形速率的相互关系。
3.
The influences of different technology parameters,such as temperature,strain,strain rate,on deformation resistance and microstructure of Q235 steel were investigated by Gleeble-1500 machine,which provided references for production practice.
借助Gleeble-1500热模拟机,研究了Q235钢不同温度、不同变形量及不同变形速率等参数对变形抗力及组织的影响规律,为生产实践提供了参考。
3) deformation rate
变形速率
1.
The influence of different deformation temperature and different deformation rate on SUS316L stainless steel flow and mircostructure
不同变形温度和变形速率对SUS316L不锈钢流变应力及金相组织的影响
2.
The deformation temperature and the deformation rate are the mai.
变形温度和变形速率是影响动态再结晶的主要因素,一般在高的变形温度和小的变形速率下,动态再结晶才能发生。
3.
And the variation of deformation rate of plasticized material was also simulated.
计算并分析了惯性摩擦焊接过程中接头塑性区的分布、扩展规律及其与工件轴向缩短的关系,并计算了塑性区金属塑性变形速率的分布和变化情况。
4) burn off rate
变形速率
1.
The effect of the burn off rate on the structure and mechanical properties in the friction welded joint of low alloy constructional steel 35CrMo is studied in this paper.
研究了变形速率对低合金结构钢 3 5CrMo磨擦焊接头组织与力学性能的影响 。
2.
The effect of the burn off rate on the structure and mechanical properties of friction welded joints made of low alloy constructional steel has been studied.
研究了变形速率对低合金结构钢摩擦焊接头组织与力学性能的影响。
6) wing deformation acceleration
变形加速率
1.
It is revealed that in comparison of the rigid wing case,the wing deformation acceleration in the flexible wing case leads to the added inerti.
由柔性翼和刚性翼的结果比较发现,附加惯性效应是动态变形影响气动性能的主要原因,变形加速率决定了瞬时气动性能改变量的大小,相比之下,动态变形对气动性能时均值的影响则弱得多。
补充资料:弹性形变
分子式:
分子量:
CAS号:
性质:弹性材料在外力作用下发生形变后,当外力释去时,形变完全恢复、此种形变称为弹性形变。一般金属材料弹性形变不超过1%,应力应变之间关系符合虎克定律。对非晶态高聚物材料,弹性形变则包括普弹形变和高弹形变两类。普弹形变很小(约0.1-0.2%),应力应变之间关系符合虎克定律,高弹形变可高达百分之几百。高弹形变是高聚物一种独特的力学特性质,是由处于高弹态的高聚物分子内链段的聚向和位移产生的,形变时内应力小、模量小,形度值很大,当外力除支后可完全恢复。
分子量:
CAS号:
性质:弹性材料在外力作用下发生形变后,当外力释去时,形变完全恢复、此种形变称为弹性形变。一般金属材料弹性形变不超过1%,应力应变之间关系符合虎克定律。对非晶态高聚物材料,弹性形变则包括普弹形变和高弹形变两类。普弹形变很小(约0.1-0.2%),应力应变之间关系符合虎克定律,高弹形变可高达百分之几百。高弹形变是高聚物一种独特的力学特性质,是由处于高弹态的高聚物分子内链段的聚向和位移产生的,形变时内应力小、模量小,形度值很大,当外力除支后可完全恢复。
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