根据实验现象对颗粒涂层过程和坯体的致密化过程进行了详细探讨。
Particles coating process and sintering process of the compact was discussed according to experiment results.
干燥致密化过程有利于晶区的生长和完善,同时固定了纤维的取向态结构。
The drying densification process favors the growth of pseudocrystalline regions while consolidating the orientation texture.
研究了TiC含量、粘结相成分、以及反应热压工艺对致密化过程和力学性能的影响。
The effects of TiC content, composition of the binder phase and reactive hot pressing processes on densification process and mechanical properties were studied.
其压缩过程可分为弹性段,塑性坍塌段和致密化段三个阶段。
The process can be divided into three stages: the linear elasticity, the plastic and densification.
在雾化沉积的快速凝固过程中合金得到了微晶组织,经随后的热轧,合金不仅完全致密化。
It was found that a microcrystalline structure is obtained in the quick solidifying process of spray deposition, then fully compacted and further fine-grained through hot rolling.
在致密化加工过程中 ,材料的密度和力学性能明显提高 ,沉积坯中的界面和孔洞明显愈合 ,材料的显微组织趋于均匀。
With the densification, material density and mechanical properties are promoted distinctly, the boundaries and cavities in the deposits are welded and the microstructure reaches even.
通过热分析、X射线衍射、收缩率、扫描电镜等分析方法,详细说明了在烧结过程中晶化和致密化的关系;
The research methods of DSC, XRD, shrinkage rate, SEM were used in experiment. Experimental results reveal. the relationship between crystallization and densification in sintering processing.
研究表明,材料的致密化程度、轧制温度、轧制过程中道次压下量对材料的轧制性能有着重要影响。
It is found that the compactness, rolling temperature and pass reduction play a significant role in rolling properties of the composites.
研究表明,材料的致密化程度、轧制温度、轧制过程中道次压下量对材料的轧制性能有着重要影响。
It is found that the compactness, rolling temperature and pass reduction play a significant role in rolling properties of the composites.
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