2) tensile test
拉伸实验
1.
In the tensile test the strength of joint was higher than that of base plate.
8mm CuSi3,通过优化选择工艺参数,获得了成型良好的钎焊接头,通过钎焊接头厚度的加强,在拉伸实验中,钎焊接头的强度超过了母材。
2.
Femoral venous strips and rings were used to make uniaxial tensile test of the longitudinal and circumferential specimens of the vessels.
各组取股静脉,做成血管条及血管环并分别做轴向和环向拉伸实验;对照组和实验组的血管试样均行显微结构观察。
3.
The data of the seal strength were obtained by tensile test.
通过对冠盒式容器封口的拉伸实验,获得了容器封口强度的实验数据。
3) tension test
拉伸实验
1.
Force and deformation of ring specimen during hoop tension test were analyzed.
通过等宽试样和标距试样拉伸实验,对理论分析结果进行了验证。
4) tensile experiment
拉伸实验
1.
Application of VRML in tensile experiment teaching of low carbon steel;
VRML在低碳钢拉伸实验教学中的应用
2.
The magnesium alloy AZ31B was explored in the tensile experiment using the WQ4100.
采用WQ4100万能全息试验机对镁合金AZ31B进行拉伸实验,得到真实的应力-应变曲线。
5) dynamic tension
动态拉伸
1.
Experimental studies on dynamic tension of metal ring by electromagnetic loading;
实现金属环动态拉伸的电磁加载技术研究
2.
The mechanisms of crack forming and propagation were investigated during dynamic tension under static load by SEM.
采用熔铸法制备的原位自生TiC/Ti复合材料,在SEM中静载动态拉伸,原位观察和研究了裂纹的萌生及扩展机制。
3.
The dynamic tensile properties of tungsten fibers(80%,volume fraction) reinforced Zr based amorphous alloy matrix composite was investigated by means of the Split Hopkinson Pressure Bar(SHPB),and Scanning Election Microscope(SEM) was used to evaluate the fracture mode of the composite under dynamic tension.
采用霍普金森杆拉伸技术研究了W丝体积分数为80%的W丝/Zr基非晶合金复合材料的动态拉伸性能,通过扫描电镜研究了该复合材料动态拉伸断裂模式。
6) dynamic tensile
动态拉伸
1.
In situ SEM study of dynamic tensile in wrought magnesium alloy AZ31B rolling sheet
AZ31B镁合金轧制板材室温动态拉伸的SEM观察
2.
The dynamic tensile test was carried out on both DP and TRIP steel samples with strain rates in the range of 10~2~10~3 s~(-1).
采用气动式间接杆杆型冲击拉伸试验装置对TRIP钢和DP钢在102~103s-1应变率范围的动态拉伸变形行为进行了研究。
3.
By using the equipment of dynamic tensile and SEM, the microstructures of two kinds of high nitrogen austenitic stainless steels are observed.
利用动态拉伸台和SEM对两种高氮奥氏体不锈钢进行了动态拉伸的微观形貌原位观察 实验表明滑移和孪生在高氮奥氏体中同时存在;随着形变量的增加,晶粒内部的滑移线加宽,逐步成为微裂纹;而晶界的结合力较强,没有观察到沿晶断裂;氮的加入会产生固溶强化和间隙强化,增大点阵滑移的阻力,从而降低奥氏体不锈钢的塑性 随着氮含量的增加,试样的延伸率降
补充资料:保险商实验室安全标准(见保险商实验室)
保险商实验室安全标准(见保险商实验室)
safety standards of UL: see Underwriters Laboratories; UL
Baoxianshang Sh啊nshi anquan bicozhun保险商实验室安全标准(saJ七ty stand助dsofUL)见保险商实脸室。
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