1)  hight temperature superconductor
高温超导性
2)  high temperature
高温
1.
Numerical simulation of hydrodynamic behavior in a high temperature gas-solid fluidized bed with coarse granules;
高温大颗粒气固流化床流化行为数值模拟
2.
Investigation on mechanical behavior of HPC mixed with fiber after high temperature;
外掺钢纤维对高性能混凝土高温后性能的影响
3.
The desulfurization behavior of mineral matter in ash during coal combustion at high temperature;
高温环境下灰中矿物质对长广煤燃烧固硫行为的影响
3)  elevated temperature
高温
1.
Synergistic improving fretting fatigue resistance of Ti alloy at elevated temperature by duplex surface modification;
复合表面改性协同增强Ti合金高温微动疲劳抗力
2.
Experimental study on properties of concrete exposed to elevated temperatures at various heated time;
不同时间高温后混凝土性能的试验研究
3.
Fretting fatigue behaviors of Ti811 alloy at elevated temperature;
Ti811合金的高温微动疲劳行为
4)  high-temperature
高温
1.
Trial of biochemically treating high-temperature and high-salinity produced water;
高温高盐池田采出水生化处理研究
2.
An experimental study on high-temperature properties of fire-resistant steel made by Masteel;
马钢耐火钢高温下材料性能试验研究
3.
Status Quo of High-Temperature Pressure Sensor and Its Prospect;
高温压力传感器现状与展望
5)  hyperthermia
高温
1.
Effect of hyperthermia on the red-cell immune function of rats and its teratogenicity on developing embryos;
高温对大鼠红细胞免疫功能和胚胎发育的影响
2.
Effect of Hyperthermia on Tongue Squamous Carcinoma Cells Proliferation Activity;
高温对舌癌细胞体外增殖活性的影响
3.
Effect of hyperthermia on the expression of nm23-H1 gene in tongue squamous carcinoma cells;
高温对人舌鳞癌细胞中nm23-H_1基因表达影响的实验研究
6)  Heat
高温
1.
Effect of Noise and Heat on the Cardiovascular System of the Workers in Chemical Fiber Enterprises;
噪声与高温对化纤企业工人心血管系统影响的研究
2.
Effect of heat and BPDE on the expression of Hsp27 and Hsp70 in A549 cell line;
高温、苯并芘-7,8-二醇-9,10-环氧化物单独作用对人肺腺癌细胞Hsp27、Hsp70表达的影响
3.
Effect of Benzopyrene or/and Heat on Levels of HSP70 and HSP90 β in Mice Brain;
苯并[a]芘和高温及其联合作用对小鼠脑组织HSP70和HSP90β水平的影响
参考词条
补充资料:超导性
分子式:
CAS号:

性质:在温度和磁场都小于一定数值的条件下,导电材料的电阻和体内磁感应强度都突然变为零的性质。具有超导性的物质称为超导体(super conductor)。许多金属(如铟、锡、铝、铅、钽、铌等)、合金(如铌锆、铌钛合金)和化合物(如Nb3Sn,Nb3Al等)都可成为超导体。从正常态过渡到超导态的温度称为该超导体的转变温度(或临界温度Tc)。现有材料仅在很低的温度下才具有超导性。当磁场达到一定强度时,超导性将被破坏,这个磁场限值称为临界磁场。目前发现的超导体有两类。第一类只有一个临界磁场(如电汞、纯铅等);第二类有下临界磁场HCl和上临界磁场Hc2。当外磁场达到Hcl时,第二类超导体内出现正常态和超导态的混合状态;只有磁场增大到Hc2时,才转化到正常导体。超导体己逐步用于加感器、电机、电缆、贮能器和交通运输设备等方面

说明:补充资料仅用于学习参考,请勿用于其它任何用途。