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1)  3-D quasi-static field
3D准静态场
2)  quasi-static field
准静态场
3)  Quasistatic Magnetic Fields
准静态磁场
1.
The Study of Absorption Mechanisms and 10~9G Quasistatic Magnetic Fields Generation in Interaction of Ultra-Intense, Short Laser Light by Solids and Overdense Plasmas;
超强激光与固体靶相互作用中的能量吸收机制以及10~9高斯准静态磁场的研究
4)  Quasi-static electromagnetic field
准静态电磁场
1.
For the equation of circuit model in electromagnetic compatibility, the equivalence relations between lumped circuit conditions and quasi-static electromagnetic field conditions are proved by means of Maxwell field equations based on the fundamental theories of electromagnetic field in this paper.
运用麦克斯韦方程组证明了电路的集总条件与准静态电磁场的条件之间的等值关系,揭示了电路理论与电磁场理论的内在联系。
2.
In order to study the coupling between the probe tip and the rough sample in scanning near-field optical microscopy(SNOM),a quasi-static electromagnetic field approach is adopted and a theoretical model for SNOM is proposed.
为了研究扫描近场光学显微镜(SNOM)中探针和粗糙样品表面的耦合相互作用,采用准静态电磁场理论的方法,提出了一种模拟SNOM的理论模型。
5)  quasi-static stress field
准静态应力场
1.
Based on the expansion law of gaseous explosion product, at first, the quasi-static stress field in rock near the blast hole is founded, and then, the blast-induced cracking and cavity expansion by gaseous explosion product are explored.
在分析爆生气体膨胀规律的基础上,建立了炮孔周围岩石中的准静态应力场,探讨了爆生气体的爆破致裂作用和扩腔作用。
2.
Comparing blasting with water coupling and air coupling in boreholes,pressure in the wall of borehole was theoretically calculated,it concludes that quasi-static stress field in wall of borehole from the blasting with water coupling is stronger,its action is more effective and the action time is longer than that of other decoupling material.
基于现有爆破理论和爆破技术,对钻孔爆破中水和空气不耦合装药爆破进行了研究,从理论上推导了采用不同耦合介质时炮孔孔壁初始压力,得到的结论是水介质不耦合爆破对爆炸能量的利用率更高,形成的准静态应力场强度更强,作用也更均匀持久。
6)  quasi-static surface magnetic field
表面准静态磁场
补充资料:准静态热力过程
分子式:
分子量:
CAS号:

性质:一种理想化的热力过程。是当体系内部从某一平衡态开始,经历了一系列平衡的中间状态后达到另一个终了平衡态的全过程。平衡过程可以在状态参数坐标图上表示成一条实线,简称热力过程线。实际上由于体系与外界之间存在各种不平衡的作用因素(如温差、压力差等),必然使体系的状态发生变化,使中间状态不可能是平衡态。但若把不平衡因素无穷慢地施加给体系,并且使体系恢复平衡的速度远远大于平衡被破坏的速度,这时状态变化的全过程就称为准静态热力过程。这一概念对进一步研究可逆过程的性质具有重要的意义(参见逆过程)。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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