1) perforated steel pl
多孔钢板
1.
The present experimental investigation attempts to understand the propagation of gaseous detonation waves in a section lined with perforated steel plate.
本实验旨在研究气相爆轰波在衬有多孔钢板的管道中传播的现象 。
2) multi-hole orifice
多孔孔板
1.
Experimental study on main factor affecting throttling characteristic for multi-hole orifice;
多孔孔板节流特性主效应因素试验
2.
Experimental study on water throttling model of multi-hole orifice;
多孔孔板水节流特性试验及数学模型
3) perfobond strip
开孔钢板
1.
The behavior of a perfobond strip shear connector and the reinforcement effect of steel fiber on concrete were investigated.
为了考察钢-混凝土组合桥面板的整体工作性能,对1块简支钢-混凝土组合桥面板进行了试验,探讨了开孔钢板型剪力连接件的工作性能和混凝土中添加钢纤维的增强作用。
4) punched steel plate
穿孔钢板
5) perforated plate
多孔板
1.
Due to the existence of distributed holes, it is difficult to solve the bending problem of perforated plates by conventional finite element method.
由于密集型分市孔的存在,通常的有限元法不能有效地分析多孔板的弯曲问题。
2.
Taking into account the climate of Guangzhou that strong horizontal solar and highly annual air temperature, and also consider for integrated solar building, a unglazed perforated plate double roo.
本文针对广州地区水平太阳辐射强烈、年平均温度高的气候特点,考虑了太阳能利用设施与建筑结合的要求,设计了多孔板构造双层屋面结构,试图在屋面满足隔热要求的同时探索热利用的途径。
6) multiple hole orifice plates
多洞孔板
1.
The degradation of rhodamine-B in the simulated wastewater has been experimentally investigated on a 220 L hydrodynamic cavitation set-up with multiple hole orifice plates to verify the effect of degradation with cavitation as well as investigate the influence of geometric parameters on degradation rate constant.
为了验证多洞孔板的空化效果和探讨几何参数等因素对降解速率常数的影响,在220L水力空化装置中利用多洞孔板对含有若丹明B染色剂的模拟印染废水进行了降解试验研究,结果表明:多洞孔板对若丹明B确实有降解作用,同时存在一个最佳的多洞孔板的面积比,并且降解速率常数随修正空化数的减小而增大。
补充资料:多苯基多亚甲基多异氰酸酯
多苯基多亚甲基多异氰酸酯,简称PAPI,或称粗MDI,浅黄色至褐色粘稠液体.有刺激性气味。相对密度(20℃/20 ℃)1.2,燃点218℃。PAPI实际上是由50%MDI与50%官能度大于2以上的多异氰酸酯组成的混合物。升温时能发生自聚作用。溶于氯苯、邻二氯苯、甲苯等。PAPI的活性低,蒸气压低,只是TDI的百分之一,故毒性很低。
用于制造聚氨脂胶粘剂。也可直接加入橡胶胶粘剂中,改善橡胶与尼龙或聚酯线的粘接性能。贮存于阴凉、通风、干燥的库房内,远离火种、热源。严格防水、防潮,避免光照。
用于制造聚氨脂胶粘剂。也可直接加入橡胶胶粘剂中,改善橡胶与尼龙或聚酯线的粘接性能。贮存于阴凉、通风、干燥的库房内,远离火种、热源。严格防水、防潮,避免光照。
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