1) tensile stress-strain
拉伸应力-应变
1.
This article has investigated the tensile stress-strain curve of 6 FEVE paints,and the compatibility of FEVE paint and epoxy primer.
研究了6种FEVE氟碳涂料的拉伸应力-应变行为以及氟碳涂料与环氧底漆的相容性,结果表明:氟碳涂料具有良好的力学性能,并且与环氧底涂层匹配性良好。
2) tensile stress-strain diagram
拉伸应力-应变图
3) tensile strain
拉伸应变
1.
The conductors critical current (I_ c ) keeps nearly constant when the tensile strain is low than the critical value.
本文主要研究了在77K温度下,拉伸应变和弯曲应变对Bi-2223/Ag超导带材临界电流的影响,得到了超导带材的临界电流随拉伸强度、曲率半径变化规律。
2.
We discuss the changes in properties of such prepared tape compared to that of conventional Bi2223 tapes and effects of tensile strain on its properties.
本文利用在超导芯部引入Ag合金的方法制备了一种新结构Bi2 2 2 3超导带材 ,并研究了此种带材相对于普通Bi2 2 2 3超导带材性能的变化 ,以及拉伸应变对其性能的影响 。
3.
The relationship between the tensile stress and the tensile strain at the initial of a tension test has been experimentally determined and analyzed.
在稳态直流高压电场作用下,电流变液的拉伸应力在小拉伸应变范围内迅速线性增加,然后缓慢上升到拉伸屈服应力。
4) stretching strain
拉伸应变
1.
After adopting laser precision measurement,the accuracy of the testing equipment has been increased evidently and the key problem effecting the quality of the product and the transfer method of the quality value of stretching strain have been resolved.
分析了线导线团拉伸应变激光精确测量方法及实施方案。
5) tensile stress
拉伸应力
1.
The relationship between the tensile stress and the tensile strain at the initial of a tension test has been experimentally determined and analyzed.
本文对电流变液的直流高压电场作用下,小应变范围内的拉伸应力应变过程进行了测试和分析。
2.
In order to study aging of PBX under low tensile stress,a new device was designed which can conveniently be used to carry out long-term constant tensile loading.
为了研究PBX在超长时低应力拉伸下的老化问题,设计了一种能进行超长时恒定拉伸应力加载的新实验装置,并验证了装置的可靠性。
6) extensional stress
拉伸应力
1.
The extensional stresses and elongational viscosities of sesbania aqueous solution were measured by a self- made extensional rheometer.
用自制的Sridhar-Gupta拉伸粘度计测定了田菁水溶液的拉伸应力与拉伸粘度。
补充资料:拉伸应力-应变曲线
分子式:
CAS号:
性质:在拉伸试验中,对试样所受的拉力与相应应变所作的坐标曲线图。它能形象地表示出应力与应变的对应关系。试验常在恒定的应变速率与伸长率下进行。
CAS号:
性质:在拉伸试验中,对试样所受的拉力与相应应变所作的坐标曲线图。它能形象地表示出应力与应变的对应关系。试验常在恒定的应变速率与伸长率下进行。
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