A particulate reinforced MMCs preparation device is introduced.
介绍了颗粒增强型金属基复合材料制备装置。
At last, the future trend of in-situ particulate reinforced Mg MMCs is presented.
最后,对原位颗粒增强镁基复合材料的发展趋势作了展望。
The neodymide particulate reinforced titanium matrix composites were made by vacuum arc remelting.
采用真空自耗电极电弧熔炼制成钕氧化物颗粒增强钛基复合材料。
Laser Induced Reaction Welding (LIRW) technique is employed for SiC particulate reinforced Al based composite to produce joints.
将激光焊接技术用于碳化硅颗粒增强铝基复合材料的焊接。
A Laser Induced Reaction Welding (LIRW) technique is employed for SiC particulate reinforced Al based composite to produce joints.
将激光焊接技术用于碳化硅颗粒增强铝基复合材料的焊接。
In this paper, the interface problems encountered in the fabrication of particulate reinforced metal matrix composites are discussed.
论述了颗粒增强复合材料制备中遇到的界面问题。
The preparation of SiC particulate reinforced al matrix composite is studied. The influence of technological parameter on the composite mechanical property is analysed.
研究了碳化硅颗粒增强铝基复合材料的制备,并对影响复合材料性能的一些工艺参数进行了摸索和探讨。
The particulate reinforced titanium matrix composites (PTMCs) produced by way of in-situ synthesis have good compatibility and thermal stability, so it is the first choice to synthesis PTMCs.
原位反应制备的颗粒增强钛基复合材料中增强颗粒与基体的相容性好,复合材料高温性能稳定,成为制备高性能颗粒增强钛基复合材料的首选途径。
In this paper, the energy dissipation in particulate-reinforced viscoelastic materials is investigated by means of mesomechanics method.
研究了微粒填充粘弹性材料在变形过程中的能量耗散。
In this paper, the energy dissipation in particulate-reinforced viscoelastic materials is investigated by means of mesomechanics method.
研究了微粒填充粘弹性材料在变形过程中的能量耗散。
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