undercooling
- undercooling的基本解释
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过冷(现象), 冷却过度, 低冷却, 过冷却
- 更多网络例句与undercooling相关的网络例句 [注:此内容来源于网络,仅供参考]
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According to the experimental observations from Fujiwara et al, when the undercooling is low enough, the (111) silicon will be the dominant orientation in the polycrystalline silicon. As the undercooling becomes much higher, the (100) will be the dominant orientation.
根据Fujiwara等人所进行的矽晶粒竞争生长实验,当过冷度很小时,生长出的多晶矽中,(111)晶向的矽晶占了大多数;然而在过冷度较大时,(100)晶向的矽晶则为多数。
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The calculating results which predict that the tip undercooling decreases continuously with an increase of the primary spacing and no minimum undercooling exists have lent an obvious evidence to the above theoretical analyses. The tip undercooling changes sharply for the low primary spacings but slowly for the large spacings.
本文提出的数值模型表明,Peclet数较小时,可以将强制性枝晶生长处理成自适应边界条件进行数值计算;计算结果充分证实了上述的理论分析,并指出顶部过冷随一次间距的增大而连续减小,不存在最小过冷值;一次间距较小时顶部过冷变化显著,较大时变化缓慢。
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With increasing undercooling, the solidification microstructures of the alloys have changed, for example, grain refinement, transformation from regular rod eutectic structure to spherical anomalous eutectic grain structure with particulate morphology; while at higher undercooling, fine regular eutectic structure was observed.
随着过冷度的增加,其凝固组织发生了一系列的变化:晶粒逐渐细化,凝固组织从规则棒状共晶向异常粒状共晶组织转化,最后得到显微结构细小的胞状共晶团组织。
- 更多网络解释与undercooling相关的网络解释 [注:此内容来源于网络,仅供参考]
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rock salt structure:岩塩型构造
过冷却 supercooling,undercooling | 岩塩型构造 rock salt structure | 换気 ventilation
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undercooling, supercooling:过冷
2.3. 吸气 gas absorption | 2.4. 过冷 undercooling, supercooling | 2.5. 过冷度 degree of undercooling
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undercooling, supercooling:过意气消沉
2.3. 吸气 gas absorption | 2.4. 过意气消沉 undercooling, supercooling | 2.5. 过意气消沉度 degree of undercooling