此外,我们对晶体的外形和生长界面作了讨论。
Furthermore, the crystal morphology and the growing interface were also discussed.
以上所提到的热应力计算均考虑了生长界面对应力的影响。
All calculations above consider the effect of the growing interface shape.
变质元素通过对石墨生长界面的直接作用,改变石墨的生长方式,影响石墨的结晶形貌。
Modifying elements directly affect the growth interface of graphite and change its growth mode which leads to different morphologies of graphite crystals.
后继加热器通过补充晶体径向的热散失,使得沿生长界面径向的由熔体向晶体的热输运实现平衡,使晶体生长界面更加平坦。
The successor heater can be used to supply the radial heat dissipation, and the melt to crystal heat flow is balanced by this process, so that the crystal growth interface became more flatted.
KDP晶体的表面及界面结构对于晶体的生长及缺陷的形成具有重要影响。
The surfaces or interfaces structure of KDP crystals acquires the key importance for the crystal growth and defects formation.
以硫酸水溶液-锌汞齐(汞电极)体系,实验研究了液-液界面上化学反应形成气体产物时气泡的生长规律。
The growth of gas bubbles on liquid-liquid interface is studied experimentally when gas forms through chemical reaction in sulphuric acid solution-zinc amalgam (or mercury electrode) system.
用胞元自动机(CA)方法模拟了枝晶生长、界面扰动以及分枝的竞争演化。
Cellular automaton (CA) method was applied to simulate dendritic growth, perturbation at the interface and the branching mechanism.
蠕变过程中出现的主要结构变化为纤维重排、富碳界面层的氧化以及基质中晶体的生长。
The main structure changes in the creep process were fiber rearrangement, the oxidation of the C-rich interfacial layer and crystal growth within the matrix.
本文还对ACRT引起的强迫对流对固液界面形状、生长条纹和芯的影响进行了讨论。
The influences of ACRT on solid-liquid interface, growth striation and formation of core have been discussed.
以琥珀腈为研究对象,用设计的定向凝固实验体系,研究了不同温度梯度和界面生长速度对固液界面形貌的影响。
The effects of temperature gradient and interfacial growth velocity on solid-liquid interface morphology were studied with succinonitrile under the unidirectional solidification system.
非等温和等温结晶实验证明钙云母晶体的生长过程受界面跃迁过程控制。
It is confirmed by isothermal and non-isothermal crystallization test that jumping across the interface controlled the growth of Ca-mica.
并用计算机模拟方法模拟了不同情况下的界面形貌和生长速度。
The interface configuration and the growth rate under different conditions have been simulated by using Monte-Carlo simulation method.
复合材料界面结构由芯材扩散层、激冷凝固层、方向性生长层和胞状晶粒层组成。
The interface structure of composite consists of core material diffusion layer, chilling solidified layer, directional growth layer, and cellular granular layer.
研究了DD 8高温合金在平界面及胞晶区的晶粒竞争生长。
The competitive grain growth of DD8 high temperature alloy in planar and cellular interface region has been investigated.
本文在经典汽泡动力学理论基础上,提出了描述汽泡生长过程的综合界面模型。
In this paper on the basis of the classical bubble dynamics, a new model is brought forward for the bubble growth in a nucleation boiling system-the comprehensive interface model.
分期植入动物股骨内,取不同期骨标本制备磨片,用骨计量学方法分析比较不同种植体界面骨的生长代谢情况,从定量、动态的角度对其生物相容性给予评价。
Histomorphometry was used to analyse and compare bone growth metabolism of bone interface with implant as well as evaluation of biocompatibility from quantitative and dynamic aspects.
特定过冷度下的层片间距与正向界面推移速率的关系是珠光体生长动力学的主要问题。
The relationship between the lamellar spacing and the edgewise growth velocity under the specific undercooling is the core of growth kinetics.
水化产物生长在碳酸钙颗粒表面,对C_3S水化起晶核作用并改善了界面粘结。
The hydrate products grow on the calcium carbonate particles. It ACTS as a nucleating effect for hydration of C_3S and improves the bond of interface.
相对于阶跃时刻,片层间距调整、界面平均生长速率与平均过冷度的变化均具有滞后性。
At the moment of step changing in velocity, the adjustment of lamellar spacing, the average velocity and the average interface undercooling characterize the hysteresis effect.
采用捕获液态界面改进的相场方法,系统地研究了结构起伏、能量起伏对过冷纯金属熔体中树枝晶生长的影响规律。
The affecting law of structure fluctuation and energy fluctuation on dendrite growth in pure undercooled melt was studied by simulation of a phase-field method.
固液界面处温度的精密测量是晶体生长动力学研究的一个重要实验数据。
In studying the kinetics of crystal growth from the melt, it is extremely important to measure the crystallization front temperature.
利用传统的元胞自动机方法摸拟了基于溶质扩散控制界面生长机制的枝晶演变和显微偏析。
The dendrite evolution and micro-segregation based on mechanism of solute diffusion controlling interfacial growth is simulated by cellular automaton.
结果发现,多晶硅面注F具有较强的抑制辐射感生阈电压漂移,控制氧化物电荷和界面态生长的能力。
For suppressing the radiation-induced threshold shifts, controlling oxide charges and interface states, fluorine introduction after polysilicon doposition is a better implantation technology.
本文对晶体的生长习性进行了研究,并初步讨论了挛晶界面处枝蔓生长的原因。
The growth habits were studied and the cause of the dendritic growth on the twin interface were discussed.
通过分析研究,作者认为晶体生长过程中,介于晶体相与环境相之间的界面相起着重要的作用;
Throuh analysis, we regard that interface-phase between crystal phase and environmental phase takes the critical role during the crystal growth.
以相场模型为基础,采用宏微观耦合方法和界面捕获液态方法对铝合金枝晶生长进行模拟计算。
Numerical simulation of three dimensional dendritic growth is performed by using a macro micro coupled method and a capturing liquid method.
浓度边界层是晶体生长过程中分析界面输运现象的重要元素。
Concentration boundary layer is an important subject in discussion of interfacial transfer phenomena in crystal growth.
结合磁场诱导与选择性化学沉积,在微米级间隙金电极界面上原位生长镍纳米线。
A novel method to fabricate magnetic nickel nanostructures onto the interface of gold electrode pairs is presented by magnetic field-assisted selective chemical deposition of nickel.
氟金云母晶体以二维片层状方式生长,其生长过程受界面过程控制。
The growth of mica crystals is controlled by interface process, thus lamella mica crystals are formed.
氟金云母晶体以二维片层状方式生长,其生长过程受界面过程控制。
The growth of mica crystals is controlled by interface process, thus lamella mica crystals are formed.
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