1) high current impulse withstanding capability
抗大电流冲击性能
2) high current surge withstanding capability
大电流冲击性能
3) power of resisting voltaic impingement
抗电流冲击能力
4) high current surge withstand capacity
大电流冲击能力
1.
It is considered that first key aspect for heightening the high current surge withstand capacity is the dielectric strength of inorganic insulating coating,and the second aspect is coordination of thermal expansion coefficients between inorganic insulating coating and varistor body,which shall be 0.
认为影响电阻片耐受大电流冲击能力的关键之一是无机高阻层本身的绝缘强度,之二是无机高阻层和电阻片之间膨胀系数的配合问题,并通过试验指出,侧面绝缘层的膨胀系数应比ZnO陶瓷小0。
5) impact resistance
抗冲击性能
1.
In order to investigate the influence on impact resistance of steel-fiber reinforced concrete,numerical simulations are performed for cylinders against concrete slabs by using ANSYS/LDYNA3D code.
为研究不同钢纤维体积分数与不同钢纤维长径比对混凝土基体抗冲击性能增强作用的影响,利用ANSYS/LSDYNA3D有限元计算软件,采用损伤材料模型,数值模拟了钢纤维混凝土圆柱体撞击素混凝土靶板的过程。
2.
0% were tested to investigate the effect of steel fiber content on static mechanical properties and impact resistance of lightweight aggregate concrete.
0%)的钢纤维轻骨料混凝土(SFLWC)静态力学性能和自由落锤抗冲击性能,其中的静态力学性能包括立方体抗压强度、轴心抗压强度、劈裂抗拉强度、抗折初裂强度、抗折强度、静力受压弹性模量、抗折模量和弯曲韧性等。
3.
Based on epoxy diacrylate and fural amine/epoxy IPN as binder, an anticorrosive paint with excellent heat and impact resistance is developed.
以环氧丙烯酸酯与呋喃胺/环氧树脂的互穿聚合物网络(IPN)为基料,制备了耐温、抗冲击性能优良的防腐蚀涂料。
6) impact property
抗冲击性能
1.
The effects of different treatment methods and nano-CaCO3 content on impact property of the composites were examined.
对纳米CaCO3采用脂肪酸处理和钛酸酯偶联剂处理,分别制备了聚丙烯,纳米CaCO3复合材料(SⅠ)和SⅡ),考察了不同处理方法和纳米CaCO3含量对复合材料抗冲击性能的影响。
2.
the effect of graded structure on mechanical properties was studied,The results indicate that both tensile property and impact property enhance gradually with Increase of number of graded layer.
结果表明,梯度层数越多,梯度IPNs的拉伸性能和抗冲击性能越优异,随着梯度因子的增加,梯度IPNs的拉伸性能先平缓增加,当梯度因子过高时,梯度IPNs的拉伸性能显著下降,梯度IPNs的抗冲击性能随着梯度因子先显著增加,然后平缓变化。
3.
The effects of microwave curing time on flexural property and impact property were studied.
通过实验和测试,初步研究了环氧/DMP30体系的微波固化条件,研究了微波辐照时间对微波固化体系弯曲性能和抗冲击性能的影响,并对比了微波固化体系和热固化体系的力学性能。
补充资料:标准冲击电流波形(见冲击电流发生器)
标准冲击电流波形(见冲击电流发生器)
standard impulse current wave form
blaozhun ehonglld}0n4一u box]ng标准冲击电流波形(standard impulse currentwave form)见冲击电流发生器。
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