例如,由连续SiC纤维增强的碳化硅陶瓷基复合材料(SiCf/SiC),具有强度高、密度低、使用温度高等特点。将其运用于高重比发动机,能实现显著减重,是替代现有超高温耐热合金的最佳选择。
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本文的研究目的是通过对 Zr 基块体 非晶(BMG)和块体非晶基复合材料(BMGC)在过冷液态区形变行为的研究和比较,探寻在 有无第二相存在的条件下块体非晶在过冷液态区的形变机制和影响因素。 2.
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陶瓷基复合材料 [电子] ceramic matrix composite ; CMCS ; Ceramic-based composites
金属基复合材料 metal matrix composite ; MMC ; metal-based composite material
缩醛树脂基复合材料 Acetal matrix composites
高韧性水泥基复合材料 UHTCC
铝基复合材料 aluminum matrix composite ; Al matrix composite ; Al MMCs ; Al-based composites
聚合物基复合材料 polymer matrix composites ; UNIT TWELVE ; Polymer Composite ; Polymer Matrix Composite Materials
水泥基复合材料 cement based composite material ; cement-based composites ; cement matrix composites
树脂基复合材料 resinmatrixcomposite ; resin-based composites ; resin matrix composites ; resin base composite material
铜基复合材料 copper matrix composite ; copper-based composites ; Cu Matrix Composite ; Cu-based composite
金属基复合材料都要在基体合金熔点附近的高温下制备。
All Metal matrix Composites (MMCs) were fabricated at high temperature near the melting point of matrix alloys.
研究了不同增强颗粒、制备工艺的不同环节对铜基复合材料导电性能的影响。
The influences of different particles and different link of fabricating technology on electrical conductivity of copper - matrix composites were studied.
结果表明,采用真空热压后热轧工艺制备的碳纳米管铜基复合材料的致密度较高且能有效地防止被氧化。
SEM and XRD results show that the composite that is hot rolled after vacuum forming, has relatively high density and can avoid being oxidized effectively.
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