The structures and properties of liquid metals and alloys do have a significant influence on solidification behavior, solidified microstructure and their final properties.
液态金属的结构和性质对凝固行为、凝固组织以及材料最终的性能有重要的影响。
By micro modeling not only the solidified microstructure of materials can be predicted, but also the accurate information of latent heat releasing can be provided for the macro modeling.
微观模拟不仅可以得到材料的凝固组织,而且还能为宏观模拟提供准确的潜热释放信息。
The formation of roll-casting microstructure is mainly attributed to the deformation of un-solidified liquid phase, the varied distribution of mass and heat.
铸轧组织的形成主要是变形作用于未凝固的液相,引起质量和热量的分布状态发生改变所致。
The as cast and heat treatment microstructure of ZA alloy rod directionally solidified by continuous casting has been analyzed.
对热型连铸锌铝合金定向凝固线材的铸态及热处理组织进行了观察、分析和讨论。
By microstructure analysis the evolutive characteristic of structure of rapidly solidified Cu Zn alloy in different temperature preservation was initially made clear.
通过金相组织分析,初步摸清铜锌合金快速凝固组织在不同温度下保温组织演变的特点。
The characteristics of alloy powder and their influence on the microstructure and mechanical properties of rapidly solidified aluminium-lithium alloy have been investigated.
探讨了合金粉末特性及其对快速凝固铝锂合金微观组织和力学性能的影响。
The macrostructure and microstructure of the solidified samples was observed by digital camera and optical microscopy, respectively.
利用光学显微镜和数码相机对凝固试样的宏观及微观组织进行观察。
The microstructure change of solidified ZA43 alloy at high pressure was observed.
研究了高压凝固条件下ZA43合金凝固组织的变化。
The effect of electron beam surface solidification treatment on microstructure of superalloy M38G and oxidation resisfance of solidified layer has been studied.
采用电子束表面熔凝处理方法研究了电子束表面熔凝处理M38G高温合金熔凝层组织和熔凝层组织对高温氧化的影响。
The microstructure and solute concentration distribution of solidified layers is studied by means of optical microscope, SEM and EDS analysis methods.
借助于光学显微镜、扫描电镜和EDS能谱分析等方法研究了熔凝层显微组织和溶质浓度分布。
The microstructure solidified under different thermal conditions and its effects on mechanical properties of cast iron have been studied.
研究了亚共晶、过共晶铸铁合金液在不同热状态下的凝固组织,以及组织对力学性能的影响等。
Microstructure and its stability of rapidly solidified Cu-Znalloy in different temperature were investigated.
对不同温度下,铜锌合金快速凝固组织及稳定性进行了研究。
Due to very high cooling rate, the nugget structure rapidly nucleates and grows. The refined microstructure of the nugget with rapidly solidified characteristic is formed.
极大的冷却速率使得接头组织瞬间形核并快速生长,形成组织细小致密具有快速凝固特征的焊接接头。
Due to very high cooling rate, the nugget structure rapidly nucleates and grows. The refined microstructure of the nugget with rapidly solidified characteristic is formed.
极大的冷却速率使得接头组织瞬间形核并快速生长,形成组织细小致密具有快速凝固特征的焊接接头。
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