The reason of the pit reduced the nucleation energy is analyzed.
分析和讨论了凹坑降低金刚石核形成能的原因。
The crack nucleation energy and the propagation energy were measured under impact and tensile testing. The fracture surface was examined by SEM.
测定了析出相的类型和组成,测试和计算了冲击、拉伸状态下裂纹的形核能与扩展能,并通过SEM研究了断面形貌。
It turns out that it is a reasonable method to calculate the homogeneous nucleation rate of superheated liquid helium with the energy fluctuation theory.
结果表明,用能量涨落理论来计算过热液氦的均匀核化速率是一种比较合理的方法。
In addition, the activated energy of nucleation, the activated energy of crystal growth and some other dynamic parameters were regressed based on the experimental data.
此外,根据实验数据,文中还回归出了硝酸硫胺结晶时的成核活化能和成长活化能及有关动力学参数。
The distortion energy stored by twinning and the activation of non-basal slip are responsible for the nucleation and growth of dynamic recrystallization (DRX).
由孪生变形积聚的畸变能和非基滑移的启动导致了动态再结晶的形核与长大。
It is shown that hydrogen increases the activation energy of the glass transition and crystallization, and retards the nucleation and crystal growth.
结果表明:氢提高玻璃转变和晶化激活能,延迟晶核的形成及长大。
The major reason is that the nucleation additive is helpful to accelerate the velocity of icing-formation. Suitable nucleation additive has significant influence on energy-saving.
其主要原因在于成核添加剂加速冰蓄冷溶液的结冰速率,因此添加合适的成核添加剂对于小型冰蓄冷空调系统节能有重要的影响。
The interfacial energy of silicates, however, is only 10-8 times of that of alumina and, thus, the silicates have the precondition of homogenous nucleation in the steel.
而硅酸盐夹杂物的表面能只为氧化铝的10 ~(- 8),具备在钢液中均质形核的条件。
Nucleation Theory, including Interplay between Surface and Volumetric Energy Terms, Coherency Strain Energy.
成核理论,包含了表面能和体积能之交互作用,凝聚应变能。
The crystallization activation energy and temperature of crystallization peak were obviously decreased by the addition of nucleation agent.
晶核剂的加入,降低了玻璃的析晶活化能和析晶峰温度。
Upon annealing of the deformed samples, nucleation takes place at the original grain boundaries a nd the nuclei grow into the local region with the highest stored energy.
对形变后的试样进行再结晶退火后发现,再结晶形核机制为晶界弓出形核,晶界弓出方向为储存能较高的晶粒。
This exact expression for the self energy is the basis for analyzing the dislocation nucleation from crystal surface.
认为所给出的其弹性自能的精确表达式是分析位错从材料表面生成的理论基础。
This exact expression for the self energy is the basis for analyzing the dislocation nucleation from crystal surface.
认为所给出的其弹性自能的精确表达式是分析位错从材料表面生成的理论基础。
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