This paper focused on the microstructural controls needed for various high performance and functional sintered materials through powder injection molding process.
这篇论文主要研究了用粉末注射成形工艺制造各种高性能与功能烧结材料时,需要的显微组织控制。
Powder injection molding (PIM) is an advanced near net shape process with well recognized capability for efficiently producing complex parts.
粉末注射成形(PIM)工艺是一项能高效率生产小型形状复杂的精密零部件的先进的近净成形技术。
The effects of sintering process on the properties of 4J32 low expansion alloys by powder injection molding were investigated.
研究了烧结工艺对粉末注射成形4J32低膨胀合金性能的影响。
The injection molding process for metal or ceram powder is a new style manufacture technology which combines plastic molding process with powder metallurgy process and powder pottery molding.
金属粉末注射成形技术是一种将粉末冶金工艺与塑料成形工艺相结合的新型制造技术。
The theoretical model and research status of the simulation of powder injection molding filling process are reviewed. Their merits and demerits are analyzed and compared.
综述了目前用于粉末注射成形充模流动模拟所采用的理论模型及其应用研究现状,并对各自的优缺点进行了分析。
Besides, said sterile powder for injection also can contains proper quantity of diluent and adjuvant, and is made up by adopting spray-drying process, freeze-drying process and direct mixing process.
它还配以适量稀释剂、助剂,采用喷雾干燥法、冷冻干燥法及直接混合法制备得到注射用无菌粉末。所述的方法不同其处方也不同。
Besides, said sterile powder for injection also can contains proper quantity of diluent and adjuvant, and is made up by adopting spray-drying process, freeze-drying process and direct mixing process.
它还配以适量稀释剂、助剂,采用喷雾干燥法、冷冻干燥法及直接混合法制备得到注射用无菌粉末。所述的方法不同其处方也不同。
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