SiC/Al,SiC/Al,在线英语词典,英文翻译,专业英语

1) SiC/Al

SiC/Al

Friction and Wear Properties of SiC/Al Composites by Pressureless Infiltration;

无压浸渗SiC/Al复合材料的摩擦磨损性能研究

Effect of Infiltration Technics on Residual Porosity of SiC/Al Composites;

浸渗工艺对SiC/Al复合材料残余气孔率的影响

Residual Stress Analysis of SiC/Al Double-face Weld;

SiC/Al双面焊的残余应力分析

2) SiC Al

SiC-Al

3) SiC/Al powder

SiC/Al粉末

4) SiC/Al composites

SiC/Al复合材料

Effect of pore-forming agents content on bending strength of SiC/Al composites;

造孔剂含量对SiC/Al复合材料抗弯强度的影响

SiC/Al composites were fabricated by pressureless infiltration technique.

采用无压浸渗法制备了SiC含量较高的SiC/Al复合材料,分析了造孔剂添加量对多孔预制体孔隙率的影响,利用铝液浸渗多孔体理论分析了多孔预制体孔隙结构对复合材料孔隙率的影响。

SiC/Al composites reinforced with high volume fraction of low cost SiC powder have excellent properties of high specific strength, specific elastic modulus, improved wear resistance, low thermal expansion and high thermal conductivity.

高增强体含量SiC/Al复合材料不仅具有高的比强度、比弹性模量和耐磨损等力学性能，还拥有低膨胀、高导热的热学性能，而且原材料价格低廉、性能可任意剪裁，无论用作结构件、还是功能构件，都有很大的发展潜力。

5) SiC/Al composite

SiC/Al复合材料

High volume fraction SiC/Al composites for space-based optomechanical structures;

制备空间光机结构件的高体份SiC/Al复合材料

SiC/Al composite were prepared by hot pressing,variations in friction and wear were studied related to heat treatment.

载荷超过5 N后,高SiC(20wt%以上)含量的复合材料热处理后的磨损率大幅降低,7 N时,30wt%SiC/Al复合材料的磨损率可达到1。

An approach to pressure-free metal infiltration technology for fabricating SiC/Al composite is fund.

对用无压浸渗法制备高体积分数的SiC/Al复合材料的浸渗过程进行了分析。

6) SiC/Al 2O 3

SiC/Al2O3

参考词条

SiC/Al Alloy SiC/Al alloy composite SiC/Al composite SiC/Al composite materials Continuous SiC(Al) fibers SiC(Al) fibers SiC/Al-Si clad coating Pressure-Free Infiltrated SiC/Al SiC/Al functionally gradient material SiC/Al alloy ZL109 co-continuous composite SiC/(Al(OH) 3+Y(OH) 3) β SiC-Al 2O 3 composite 判别分析法多效唑及6-BA

补充资料：bioactive glass-ceramic composite reinforced by SiC whisker

分子式：
CAS号：

性质：由碳化硅晶须与生物活性玻璃陶瓷复合而成的生物陶瓷复合材料。高强度、高弹性模量、无毒的碳化硅晶须在陶瓷基材中弥散分布，使材料中的裂纹相对均匀，裂纹扩展发生转向和分支；外力作用下碳化硅晶须拔出时产生的拔出效应，使复合陶瓷的弯曲强度达460MPa，断裂韧性达4.3MPa·m1/2，维伯尔系数高达24.7，标志着它是可承力的生物陶瓷复合材料。

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

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1) SiC/Al SiC/Al 1. Friction and Wear Properties of SiC/Al Composites by Pressureless Infiltration; 无压浸渗SiC/Al复合材料的摩擦磨损性能研究 2. Effect of Infiltration Technics on Residual Porosity of SiC/Al Composites; 浸渗工艺对SiC/Al复合材料残余气孔率的影响 3. Residual Stress Analysis of SiC/Al Double-face Weld; SiC/Al双面焊的残余应力分析 2) SiC Al SiC-Al 3) SiC/Al powder SiC/Al粉末 4) SiC/Al composites SiC/Al复合材料 1. Effect of pore-forming agents content on bending strength of SiC/Al composites; 造孔剂含量对SiC/Al复合材料抗弯强度的影响 2. SiC/Al composites were fabricated by pressureless infiltration technique. 采用无压浸渗法制备了SiC含量较高的SiC/Al复合材料,分析了造孔剂添加量对多孔预制体孔隙率的影响,利用铝液浸渗多孔体理论分析了多孔预制体孔隙结构对复合材料孔隙率的影响。 3. SiC/Al composites reinforced with high volume fraction of low cost SiC powder have excellent properties of high specific strength, specific elastic modulus, improved wear resistance, low thermal expansion and high thermal conductivity. 高增强体含量SiC/Al复合材料不仅具有高的比强度、比弹性模量和耐磨损等力学性能，还拥有低膨胀、高导热的热学性能，而且原材料价格低廉、性能可任意剪裁，无论用作结构件、还是功能构件，都有很大的发展潜力。 5) SiC/Al composite SiC/Al复合材料 1. High volume fraction SiC/Al composites for space-based optomechanical structures; 制备空间光机结构件的高体份SiC/Al复合材料 2. SiC/Al composite were prepared by hot pressing,variations in friction and wear were studied related to heat treatment. 载荷超过5 N后,高SiC(20wt%以上)含量的复合材料热处理后的磨损率大幅降低,7 N时,30wt%SiC/Al复合材料的磨损率可达到1。 3. An approach to pressure-free metal infiltration technology for fabricating SiC/Al composite is fund. 对用无压浸渗法制备高体积分数的SiC/Al复合材料的浸渗过程进行了分析。 6) SiC/Al 2O 3 SiC/Al2O3 参考词条 SiC/Al Alloy SiC/Al alloy composite SiC/Al composite SiC/Al composite materials Continuous SiC(Al) fibers SiC(Al) fibers SiC/Al-Si clad coating Pressure-Free Infiltrated SiC/Al SiC/Al functionally gradient material SiC/Al alloy ZL109 co-continuous composite SiC/(Al(OH) 3+Y(OH) 3) β SiC-Al 2O 3 composite 判别分析法多效唑及6-BA 补充资料：bioactive glass-ceramic composite reinforced by SiC whisker 分子式： CAS号：性质：由碳化硅晶须与生物活性玻璃陶瓷复合而成的生物陶瓷复合材料。高强度、高弹性模量、无毒的碳化硅晶须在陶瓷基材中弥散分布，使材料中的裂纹相对均匀，裂纹扩展发生转向和分支；外力作用下碳化硅晶须拔出时产生的拔出效应，使复合陶瓷的弯曲强度达460MPa，断裂韧性达4.3MPa·m1/2，维伯尔系数高达24.7，标志着它是可承力的生物陶瓷复合材料。说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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