1)  insulator
绝热剂
1.
Feas ible technology methods are introduced to the selection, fabrication, heat prote ction result assessment of insulator according to the heat protection of the tun gsten carbide bead welding in resent years.
针对近年来碳化钨堆焊中的热保护技术问题 ,从碳化钨绝热剂的选择、制备、防热效果评定等方面提出可供实施的技术思路 ,并就与之有关的现代科学技术研究成果以及新理论新方法进行了简要陈述。
2)  heat insulation
绝热
1.
The other is EG-based carbon/carbon low density composite used for heat insulation.
本文介绍了采用此制备工艺的两种膨胀石墨基低密度炭/炭复合材料的一些研究工作:一种材料为以膨胀石墨基炭/炭低密度复合材料活化后制取块状成型活性炭;另一种为利用膨胀石墨基炭/炭低密度复合材料作为绝热材料。
2.
5,under the oxidation of catalyst,the heat insulation synthesis of PFS is realized with the raw Fe 2SO 4·7H 2O,getting rid of the heating equipment and economizing the processing.
5 时,采用工业级硫酸亚铁为原料,在催化氧化作用下,可以实现PFS 的绝热合成工艺,去除加热设备,优化工艺过程。
3.
Numerical simulation results have shown that the new type of bricks can be of both refractory and heat insulation.
根据传热原理,建立了微栅格砌体的传热数学模型,模型计算表明:这种新的砌体可以同时具有很好的绝热性能和耐高温性能。
3)  insulation
绝热
1.
Vacuum insulation panel technology and its development;
真空绝热板(VIP)技术及其发展
2.
With regard to insulation layer and shell anti-corrosion insulation coating for ladle, oxyacetylene flame hot spraying nanometer Al2O3 coating (1), compound reflection insulation plate (2), spreading/putting insulationprotecting coating (3) for the inner surface of ladle shell were studied and developed based on microscale heat transfer.
基于微纳米传热学理论,研制开发了钢包包壳内表面 (1) 氧乙炔火焰热喷涂纳米Al2O3涂层,(2) 复合反射绝热板,(3) 喷/抹涂绝热防护层,取得了钢包外壁温度下降78~140oC以上、减小钢水温降、提高内衬温度等效果。
4)  Thermal insulation
绝热
1.
In this article,the author introduces characteristics and performance index of cellular glass,application,structure and construction method of cellular glass in thermal insulation and sound absorption projects.
阐述泡沫玻璃的特点和性能指标 ,泡沫玻璃在绝热工程和吸声隔声工程中的应用、构造和施工方
5)  prefabricated wrapping
绝热包扎
1.
Based on the problem and objection of bottom cooling waterpipe prefabricated wrapping structure in bar heating furnace of Han steel,the project of technique reformation was put forward and put into practice.
针对邯钢棒材二车间加热炉炉底水管绝热包扎结构存在的问题和缺陷,提出了技术改造方案,并予以实施。
6)  adiabatic temperature
绝热温度
1.
Calculation of adiabatic temperature and study on knietics of preparation of amorphous boron powder by heating reduction with magnesium;
镁热还原法制备无定形硼粉绝热温度的计算与动力学研究
2.
A programm was developed to calculate the adiabatic temperature of NiTi reaction,and the relation between adiabatic temperature and NiTi content,preheating temperature.
根据热力学原理编程计算了NiTi反应时的绝热温度及其与稀释剂w(NiTi)含量和预热温度的关系。
3.
The adiabatic temperature(Tad) and reaction heat per unit mass in NH4VO3-TiO2-Cr2O3-Ni-Al reaction system was calculated to be 1 889.
计算知NH4VO3-TiO2-Cr2O3-Ni-Al反应体系的绝热温度(Tad)为1 889。
参考词条
补充资料:8105涂料印花黏合剂、HF自交型涂料印花黏合剂、印染黏合剂DE、SC-183涂料印花黏合剂、黏合剂7601
分子式:
CAS号:

性质:又称8105涂料印花黏合剂、HF自交型涂料印花黏合剂、印染黏合剂DE、SC-183涂料印花黏合剂、黏合剂7601或7601自交型黏合剂T/C。外观为带蓝色荧光的白色乳液。pH值5~6。含固量38%~40%。主要成分是丙烯酸丁酯、丙烯腈和N-羟甲基丙烯酰胺的共聚物。适用于棉及涤/棉混纺织物的涂料印花,高温熔烘(180℃下,15min)不泛黄。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。