This "fusing" of particles results in an increase in the density of the part and hence the process is sometimes called densification.
微粒的“熔合”导致零件密度增加,因此该工艺有时被称为致密化。
To insure more densification but deformation of glass beads, the green density should be increased, and the burnout temperature of binder should be below the toplimit of transformation temperature.
为保证绝缘子获得较高致密度而不变形,应尽量提高生坯密度,同时排蜡温度应低于该种玻璃的转变温度上限。
Research results show that the densification efficiency is influenced by carbonization pressure, fabric structure, material size, material density, carbonization cycles and etc.
结果表明:碳化压力、织物结构、材料尺寸、材料密度、碳化时间的长短等因素对致密化效果都有影响。
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