1) composite coatings reinforced by compound carbides
颗粒增强复合材料层
1.
Basing on the achievements of C -Si- B laser alloying and Fe - C- Si- B laser cladding, by means of mixing an appropriate quantity of Ti and WC powders, uniform, fine and without defect composite coatings reinforced by compound carbides could be acquired on the surface of steel and cast iron.
在C-Si-B激光合金化和Fe-C-Si-B激光熔覆的基础上,通过往熔覆粉末中加入适量钛粉和WC陶瓷,在钢和铸铁表面均获得了组织均匀、细化、无缺陷的颗粒增强复合材料层。
2) particle-reinforced composite
颗粒增强复合材料
1.
Strength-reducing effect of particle-reinforced composite;
颗粒增强复合材料的降强效应
2.
By assumption of periodical distribution of uniformed particles in size and shape, both hexagonal and cubic cell models were constructed to study mechanical properties of particle-reinforced composites by using three-dimensional finite element method.
利用三维有限元方法 ,通过建立立方体、六棱柱单位胞体数值分析模型 ,对颗粒增强复合材料做模拟计算 。
3) Particle reinforced composites
颗粒增强复合材料
1.
Simulation of the fracture behavior of inclusion-matrix interface for particle reinforced composites;
颗粒增强复合材料界面开裂力学性能的模拟
2.
A meso structure model of particle reinforced composites with large volume fraction is suggested.
针对高体积含量的颗粒增强复合材料 ,提出了一种细观结构模型 :将颗粒简化为同质、同尺寸的弹性圆球 ,两颗粒之间的连接基体简化为一弹塑性短圆柱体 ,并假设细观应力、应变和塑性区均为轴对称分布。
4) particle reinforced 6066/SiC composites
颗粒增强6066/SiC复合材料
1.
The elastic modulus(E_c) of SiC particle reinforced 6066/SiC composites made by powder metallurgy and sprayed deposition were measured by dynamic elastic modulus tester.
利用动态弹性模量测试仪测试采用粉末冶金和喷射沉积方法制备的SiC颗粒增强6066/SiC复合材料的弹性模量Ec。
5) particle reinforced Cu-matrix composites
颗粒增强铜基复合材料
1.
The development of particle reinforced Cu-matrix composites is reviewed.
回顾了颗粒增强铜基复合材料的发展和常用颗粒增强相;简介了新型三元层状陶瓷材料Mn+1AXn,并将其主要成员与常用铜基复合材料增强相进行比较;介绍了Mn+1AXn陶瓷与铜的复合材料目前的研究进展;展望了该类复合材料的发展和应用前景。
6) particle reinforced aluminum matrix composites
颗粒增强铝基复合材料
1.
In order to recover aluminum from aluminum matrix composites,the appropriate compound salt was prepared and the removal behavior of reinforcing materials from particle reinforced aluminum matrix composites was investigated experimentally by using molten salt process.
为了回收铝合金基体材料 ,配制了合适的混合盐熔剂 ,采用熔融盐法去除颗粒增强铝基复合材料中的增强材料。
补充资料:颗粒增强锌基复合材料
分子式:
CAS号:
性质:锌或锌合金基体以碳化硅(SiC)、氧化铝(Al2O3)等颗粒增强的锌基复合材料。基体中的主要合金元素有铝、铜、镁等元素。与相应的锌基合金相比,锌基复合材料具有较高的比强度、比模量;较高的硬度和耐磨性,较低的密度和热膨胀系数。但塑性和韧性较差。锌基复合材料主要用于半固态搅拌、压力浸渗和压铸法制造。可应用反造各种耐磨零件,传动齿轮、转轮、导轨和塑料注塑模具等。
CAS号:
性质:锌或锌合金基体以碳化硅(SiC)、氧化铝(Al2O3)等颗粒增强的锌基复合材料。基体中的主要合金元素有铝、铜、镁等元素。与相应的锌基合金相比,锌基复合材料具有较高的比强度、比模量;较高的硬度和耐磨性,较低的密度和热膨胀系数。但塑性和韧性较差。锌基复合材料主要用于半固态搅拌、压力浸渗和压铸法制造。可应用反造各种耐磨零件,传动齿轮、转轮、导轨和塑料注塑模具等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条