超导体的转变温度和临界电流密度是两个经常要测量的参数。
A superconductor's transition temperature and critical current density are two commonly measured parameters.
计算表明,变形能的加入可以使临界核胚减小,并且提高铁素体开始转变的温度。
Results show that the critical nucleus will be reduced and the initial transformation temperature of ferrite improved with increase of the deformation store energy.
这个亚稳态的温度稳定性能够很好地解释磁性转变的临界场随温度的变化行为。
The temperature behavior of the critical field could be explained by taking into consideration the metastable state.
临界温度附近的吸附机理低压下为单分子层,高压下转变为多分子层; 远离临界温度时吸附机理仅为单分子层。
Near the critical temperature, mono-layer wasoccurred at low pressure , and followed by multi-layer adsorption as the pressure increased.
临界温度附近的吸附机理低压下为单分子层,高压下转变为多分子层; 远离临界温度时吸附机理仅为单分子层。
Near the critical temperature, mono-layer wasoccurred at low pressure , and followed by multi-layer adsorption as the pressure increased.
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