1) thermal tensile
热拉伸
1.
Influence of thermal tensile deformation on microstructure of AZ31B magnesium alloy thin sheet;
热拉伸变形对AZ31B镁合金薄板显微组织的影响
2.
The hot workability of the Ni-free type dual phase stainless steel 00Cr21Mn5Ni1N is studied by thermocompression test and thermal tensile test.
采用热压缩和热拉伸试验方法,对节镍型双相不锈钢00Cr21Mn5Ni1N的高温变形抗力、高温塑性及高温变形时奥氏体相的数量进行了研究。
3.
The results show that there are three special temperature ranges on the stress-strain curves of thermal tensile at 160~400 ℃, which is different from curves at room temperature apparently.
通过单向热拉伸试验和金相显微组织观察研究了AZ31B薄板热变形过程及变形前后的再结晶组织。
2) Hot stretch
热拉伸
1.
So it is necessary to study hot stretch properties, hot drawing of shell parts and its finite element simulation of magnesium alloys for providing technical supports of plastic processing.
由于镁晶体为密排六方结构,镁合金的室温塑性加工能力较低,因而很有必要研究镁合金的热拉伸性能,壳形件热拉深成形及其有限元模拟,为今后镁合金塑性加工提供必要技术支持。
2.
So it is necessary to study the hot stretch property and superplasticity,the gas bulging forming of hemispheroid and its finite element simulation of magnesium alloys for providing technical supports of plastic processing.
因此,有必要研究变形镁合金的热拉伸性能和超塑性性能,超塑性气胀半球体成形及其有限元模拟,为今后镁合金的塑性加工提供必要技术支持。
3) heated pulling
热拉伸
1.
Fabrication of bend optical fibre probes by heated pulling combined with chemical ething;
热拉伸和化学腐蚀相结合制备弯曲光纤探针
4) hot-drawing
热拉伸
1.
The melting behavior of gel spun, ultra-high molecular weight polyethylene fibers was investigated by DSC and WAXD at various stages of hot-drawing, Four peaks appear with temperatures of 137℃, 140-146℃, 150-154℃ and 158℃ (Tm1, Tm2, Tm3, Tm4) respectively in the DSC thermograms.
热拉伸过程中结构的发展和“拉伸三阶段机理”相吻合。
2.
The regularity of hot-drawing and the dispersion of HAP before and after surface disposal in PLLA was discussed.
重点研究了热拉伸取向的拉伸规律及表面改性前后HAP粒子在PLLA基质中的分散情况。
5) Preheating and Stretching
预热拉伸
1.
Improvement of Controlling Method for Preheating and Stretching Process of Geogrid;
土工格栅生产预热拉伸控制方法的改进
6) hot stretching ratio
热拉伸比
补充资料:负温度系数热敏电阻陶瓷(见热敏陶瓷)
负温度系数热敏电阻陶瓷(见热敏陶瓷)
thermo-sensitive ceramics with negative temperature coefficient
负温度系数热敏电阻陶瓷thermo一sensitiveeeramies with negative temperature eoeffieient在某一特定温度范围,电阻率随温度的升高而明显减小的热敏陶瓷。简称NTC陶瓷。
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