1) non-conventional superconductor
非常规超导体
2) room temperature superconductor
室温超导体,常温超导体
3) irregular upper bainite
非常规上贝氏体
1.
The experimental results show that, when the cooling rate after austenitization is between 20℃/s and 50 ℃/s and isothermal time is between 80 s and 1 200 s, the irregular upper bainite microstructure can be obtained.
实验结果表明,当奥氏体化后的冷却速度为20 ̄50℃/s、等温时间为80 ̄1200s时,获得非常规上贝氏体组织,并呈现由单一α相组成的短棒状,晶格常数与平衡态α相不同,晶格呈膨胀状态,相变具有非完全扩散的特征。
4) irregular low bainite
非常规下贝氏体
1.
The experimental results show that only when the following conditions which are fast cooling after austenitization and isothermal time from 80 s to 1200 s are provided can the irregular low bainite be obtained.
实验结果表明,当奥氏体化后的冷却速度接近临界冷速(60℃/s)、等温时间大于孕育期(80 s)且在20 min以内短时等温获得非常规下贝氏体组织,其光学显微组织形态呈现由单一α相组成的短针状,晶格常数和平衡态α相不同,其值为2。
5) conventional superconducting nano-particles
常规超导纳米粒子
1.
The thermodynamic properties of an ensemble of conventional superconducting nano-particles are affected by the fluctuations of the order parameter, causing the important deviations from the results of mean-field theory, especially in the critical regime.
考虑了奇/偶电子数分布,用静态路径近似(SPA)方法计算了随机矩阵理论中高斯正交系综(GOE)所对应的电子能级分布下常规超导纳米粒子的电子热容,得到了弱自旋轨道耦合和弱磁场中奇/偶电子数分布下相变临界区域附近的电子热容,并做了简单分析。
6) non-conventional explanation for supernormal meaning
非规约性超常实现
补充资料:超导体
| 超导体 superconductors 见超导电性。 |
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