分析结果表明, 随着球磨时间的延长, 粉末固结致密难度增加, 所需挤压力显著增大。
The simulation results show that, with increasing the milling time, the densification of powders becomes more and more difficult, and the needed extrusion pressure substantially rises.
粉末爆炸固结技术具有高温、高压、瞬间作用的特点,因此在新材料的开发中具有显著的优势和发展前景。
Because the technique of explosive consolidation of powders can produce high temperature and high pressure in very short time, it is promising in the exploiture of advanced materials.
本文在讨论了粉末爆炸固结的方法、装置和机理的同时介绍了该项技术在各个领域的应用。
The method and device for explosive consolidation as well as its mechanism are discussed, finally the various applications of explosive consolidation are also introduced.
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