Theoretical computation and numerical simulation of the relaxation of sphere-capillary model saturated with oil and water;
油水饱和球管孔隙模型弛豫的理论计算与计算机模拟
Low temperature relaxation effects on thermal stability and mechanical property of Mg_(65)Cu_(25)Gd_(10) metallic glass;
低温弛豫对Mg_(65)Cu_(25)Gd_(10)大块非晶合金热稳定性及力学行为影响
Grain boundary relaxation in CaCu_3Ti_4O_(12) ceramic;
CaCu_3Ti_4O_(12)中的晶界弛豫
Mechanical and Impedance Relaxations Study in Na_xCo_2O_4
Na_xCo_2O_4陶瓷的力学弛豫和阻抗弛豫研究
Snoek Relaxational Peak in a Fe-Cr-Al Alloy;
Fe-Cr-Al合金中的Snoek弛豫
The nuclei can relax to their normal distribution.
核子可以弛豫到它们正常分布状态。
A new relaxation oscillation mode is found through the dynamic simulation.
通过模拟发现了新的弛豫振荡模式。
The relaxation is due to the interactions with the thermal excitations.
弛豫是由热激发相互作用而产生。
Furthermore, they are all dealing with fully relaxed material.
另外,它们都处理完全弛豫的材料。
Study on the Growth and Phase Transition of Relaxor Ferroelectric Single Crystals;
弛豫铁电单晶的生长及其相结构研究
Preparation and Characterization of PST-based Relaxor Ferroelectric Ceramics;
PST基弛豫铁电陶瓷的制备与性能研究
Synthesis and Relaxivity of Multi-Nuclear Gadolinium Complexes as New MRI Contrast Agents;
多倍体钆(Ⅲ)配合物的合成与弛豫效能
Magnetic relaxation effects in phase-separated polycrystalline Nd_(0.85)Sr_(0.15)CoO_3;
相分离体系Nd_(0.8)5Sr_(0.15)CoO_3的弛豫现象
Dielectric Relaxation and Multiferroic Characteristics of BiFeO_3, YFeO_3 and YMnO_3-Based Ceramics
BiFeO_3、YFeO_3与YMnO_3基陶瓷的介电弛豫与多铁性
Research on Thulium-doped Fiber Lasers Cross-Relaxation Features
掺铥光纤激光器的交叉弛豫特性研究
Research on Structure Relaxation, Crystallization and Magnetic Property of Fe-based Amorphous
Fe基非晶结构弛豫、晶化及磁性能研究
Density Functional Theory Study on TiO_2(110) Surface Relaxation
TiO_2(110)表面弛豫的密度泛函理论研究
Investigation of the Thermal Relaxation in IrMn-Based Spin Valve Multilayers
IrMn基自旋阀结构多层膜的热弛豫研究
Relaxation Correlated to Vacancies in B2 Fe-Al Alloys
B2 Fe-Al合金中与空位有关的弛豫
Electron-and Hole-spin Relaxations in InAs/GaAs Single Quantum Dots
InAs/GaAs单量子点中电子/空穴自旋弛豫
Transverse Relaxation Induced by Superparamagnetic Fe_3O_4 Nanoparticles
超顺磁性纳米Fe_3O_4颗粒感生的横向弛豫