1) absolute shape recovery ratio
绝对形状回复率
1.
The effect of training, prestrain amount and recovery annealing temperature on the shape memory effect, the absolute shape recovery ratio, and the superelasticity of Fe14Mn6Si9Cr5Ni alloy is studied.
研究了训练、预应变量和退火温度对Fe14Mn6Si9Cr5Ni合金的形状记忆效应、绝对形状回复率和超弹性的影响,测定了合金的蠕变和应力松驰特性,讨论了降温ε马氏体对形状记忆效应的间接贡献。
2) shape recovery rate
形状回复率
1.
Experiment results showed that after quenching and up-quenching heat treatment,the shape recovery rate of the alloys increased when the solid-solution temperature changed from 650 ℃ to 900 ℃,and reached the maximum value at 850 ℃.
结果表明,在650℃至900℃范围内,经淬火加沸水时效,合金的形状回复率随着固溶温度的升高而升高,在850℃左右达到最大值,并趋于平缓。
3) shape recovery ratio
形状回复率
1.
The shape recovery ratio in Fe 14Mn 5Si 8Cr 4Ni 0.
变形后时效将合金的形状回复率提高了 190 % ,而直接时效只提高了 83 %。
2.
The shape recovery ratio in the alloy 1 with ultralow carbon contnet increases with increasing the aging time when aged at 1123K.
在 112 3K时效时 ,超低碳合金 1的形状回复率随时效时间的增加一直呈直线上升的趋势。
3.
The effects of aging time on shape memory effect,resistivity and microstructure of Fe 14Mn 5Si 8Cr 4Ni 0 2C shape memory alloy have been studied The results show that the shape recovery ratio will increase with increasing aging time,when the aging temperature is at 1123K.
结果表明 ,在 1 1 2 3K时效时 ,合金的形状回复率随时效时间的增加而升高 ,在 30 0min时达到最大值 ,比固溶态提高了 96% ;随后形状回复率随时效时间的进一步增加而缓慢下降。
4) shape memory recovery
形状记忆回复率
5) shape recovery
形状回复
1.
Its'weakness is that the shape recovery property is not ideal and the anticorrosion property in 80癈 crude oils is so bad that it is limited in the oil pipeline on-line application.
其缺点是形状回复能力不够理想、耐80℃原油的腐蚀性能较差,因而影响其在输油管线上的应用。
2.
The shape recovery of fine count light-weight PTT/cotton fabrics was investigated on the base of the large number of representative fabrics.
在测试了大量织物试样基础上,对比分析了PTT/棉轻薄高密织物的形状回复性能。
6) Two-way-shape-memory effect recovery ratio
双程形状记忆回复率
补充资料:卷曲回复率
分子式:
CAS号:
性质:卷曲纤维的伸直长度L与伸直后回复长度L1的差数对伸直长度L的百分率。计算公式为:。
CAS号:
性质:卷曲纤维的伸直长度L与伸直后回复长度L1的差数对伸直长度L的百分率。计算公式为:。
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