本文利用微观力学方法研究了单向连续纤维增强的金属基复合材料的弹塑性变形行为。
A micromechanical method is used to study the elastoplastic behavior of metal-matrix composite reinforced by unidirectional fibers.
对短纤维增强金属基复合材料应力传递的传统剪滞理论进行了修正和改进。
The traditional shear lag theory of stress transfer in short fiber reinforced metal matrix composites was modified and improved.
采用激光熔覆搭接技术,在中碳钢基体上制备出原位析出的颗粒增强金属基复合材料表层。
Metal matrix composite layer reinforced in situ ZrC particles was formed by laser cladding overlapping on the medium carbon steel.
根据机械设计理论和液压知识,开发和设计了一种制备网络结构陶瓷增强金属基复合材料的新型装置。
One novel equipment for fabricating metal matrix composites reinforced by reticulated ceramics was designed by using mechanical design theory and hydraulic knowledge.
文章论述了有色金属材料添加非金属增强材料,以形成新型金属基复合材料,从而能提高材料的某些特性。
This article discussed on nonferrous materials added in non-metal reinforced materials, a new metal-base composite was formed with some characteristics increased.
本文论述考虑涂层效应的纤维增强金属基复合材料的热机械加载模型的数值解法和工程应用实例。
This paper concerns the numerical methods and applications of a micromechanical model with coating effects for fiber-reinforced metal matrix composites.
本文着重论述考虑涂层效应的纤维增强金属基复合材料的热机械加载细观力学模型。
In this paper a micromechanical model of fiber-reinforced metal matrix composites is established with considering the coating effects.
证实了ECI在室温下快速制备纤维增强金属基复合材料的可行性。
The ECI is feasible to prepare rapidly fiber-reinforced metal matrix composites at room temperature.
展望了网络陶瓷增强体在金属基复合材料中的发展前景,提出了下一步需要解决的问题。
The prospect of reticulated ceramic reinforcement in metal matrix composites is described and some problems which are going to be solved in the next step are put forward.
采用基于人工神经网络的专家系统,建立了颗粒增强金属基复合材料的本构方程。
The expert system based on artificial neural network was used, and the constitutive equation of PRMMCs was built.
根据弹性力学理论建立了纤维增强金属基复合材料中纤维周围基体中的残余热应力模型。
On the basis of elastic mechanics theory, the micro residual stress expression of matrix around fiber in metal matrix composites is deduced.
纤维与金属液的非润湿性是液相浸渗制造纤维增强金属基复合材料的主要障碍之一。
The unwettability between fiber and liquid-metal is one of the main obstacles in the liquid-infiltration of fiber reinforced metal matrix composite.
颗粒增强金属基复合材料具有优良的物理力学性能,但材料的难加工特性限制了其应用。
The Particle-reinforced aluminum matrix composites (PRMMCs) has excellent mechanical properties but the application of PRMMCs is restricted by its difficult-to-machine property.
综述了增强相涂层种类、涂层制备方法及其对金属基复合材料界面和性能的影响。
Coatings on reinforcements, fabrication methods of the coatings and their effects on the interface and properties of metal matrix composites are reviewed.
本文对金属基复合材料用增强碳纤维的涂层技术研究作了综述。
This paper summarizes the studies about carbon fibre coatings for fabrica_ ting metal-matrix-composites.
根据纤维增强金属基复合材料的结构特点,研究了界面在复合材料磨损过程中的作用。
The roles of interface between tile fiber and the matrix in fiber reinforced metal matrix composites are studied during wear according to the structural features of the composites.
基体与增强体间的界面对金属基复合材料的性质起着重要的作用。
Abstract :The interface between the matrix and reinforcement plays a crucial role in determining the properties of metal matrix composites (MMC).
采用激光熔覆搭接技术,在中碳钢基体上制备出原位析出的颗粒增强金属基复合材料表层。
Metal matrix composite layers reinforced by in situ WC particles were formed by laser cladding using pre pasted 1.
本文介绍了金属基复合材料中常用增强物——碳纤维的结构及性能,特别总结讨论了碳纤维与常用金属的结合类型。
The paper deals with the structure and performance of carbon fibre used in MMCs and especially the reaction between it and some metals.
[20] 徐海江。碳化硅纤维增强的金属基和陶瓷基复合材料[J]。宇航材料工艺,1994,(6):13-18。
XU H J. Metal matrix composite and ceramic matrix composite reinforced by SiC fiber[J]. Aerospace Materials & Technology, 1994, (6):13-18.
[20] 徐海江。碳化硅纤维增强的金属基和陶瓷基复合材料[J]。宇航材料工艺,1994,(6):13-18。
XU H J. Metal matrix composite and ceramic matrix composite reinforced by SiC fiber[J]. Aerospace Materials & Technology, 1994, (6):13-18.
应用推荐