在这种情况下颗粒脱颖而出,因为它们是很容易处理的天然产品。它们存储空间小并且具有高能量密度。
In this scenario, pellets stand out because they are easy to handle natural products. They require little storage space and have high energy density.
这几种机理从不同的角度说明了高能球磨中,粉末颗粒之间相互作用时所发生的反应方式的复杂性。
At the same time, these mechanisms showed the complexity about powders interaction in the high energy ball-milling.
它是通过瞬间高能脉冲电流使粉末颗粒之间产生等离子放电,烧结制成高性能材料或制件。
It facilitates plasma discharge generated by transient high-energy pulse electric current among powder particles to prepare high-performance materials.
固体推进剂是一种颗粒填充高能聚合物,其破坏时所表现出的一些行为和金属的破坏相比,有明显不同之处。
The solid propellant is a high energy polymer filled with particles, which behavior of failure is evident different from metal.
采用高能机械球磨法制备了金属铁、钨微粉,分析了铁、钨粉末产品的粒度分布特性、比表面积变化情况及颗粒形貌。
The powder of iron and tungsten are prepared by using high energy mechanical ball mill. The size distribution, specific surface area and grain shape of iron and tungsten powder are analysised.
研究高能球磨法制备纳米钼铜复合粉末的主要影响因素,通过扫描电镜和透射电镜分析粉末的形貌及颗粒尺寸。
The main influence factors of preparing molybdenum copper nano-powder by high-energy ball milling were studied; the morphology and size of powders were analyzed.
采用高能球磨法混料和低温快速热挤压工艺相结合,是实现增强体颗粒均匀分布的最有效方法。
The results indicate that high energy ball milling together with low temperature quick hot extrusion is the most effective method for obtaining homogenous distribution of reinforcers.
亮晶颗粒石灰岩滩为高能持续动荡环境,水深在正常浪基面之上,以亮晶颗粒石灰岩沉积为主;
The sparry grainstone bank is persistently agitated high-energy environments, its water depth is above normal wave base, and deposits are mainly the sparry grainstones.
具有高能表面的稀土化合物质点,在焊接冶金过程中领先析出于过热液相内,充当了包裹式碳化物颗粒的非自发晶核核心。
During welding metallurgic process, re compound with surface energy separated out previously from superheating melted metal, and acted as the crystallizing nucleus of compound carbides.
具有高能表面的稀土化合物质点,在焊接冶金过程中领先析出于过热液相内,充当了包裹式碳化物颗粒的非自发晶核核心。
During welding metallurgic process, re compound with surface energy separated out previously from superheating melted metal, and acted as the crystallizing nucleus of compound carbides.
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