Welding technique is an effective method of joining Al-MMCs.
焊接技术是连接铝基复合材料的有效途径。
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。
The recent development in corrosion control of Al MMCs is reviewed in this paper.
综述了铝金属基复合材料腐蚀控制的最新进展。
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 advances in recent researches on MMCs' machinability are reviewed in this paper.
综述了国内外在金属基复合材料切削加工性及机理方面研究的进展情况。
The practice shows that high quality MMCs wires can be produced by well designed mold system .
实践表明,合理的模具系统可以制备出合格的金属基复合型材。
All Metal matrix Composites (MMCs) were fabricated at high temperature near the melting point of matrix alloys.
金属基复合材料都要在基体合金熔点附近的高温下制备。
Thermal expansion, one of the most important and basic properties for MMCs, has also been studied widely and deeply.
热膨胀作为这类材料重要的、基本属性之一也得到了广泛深入的研究。
One of the obstacles to using high-performing metal matrix composites (MMCs) is the scarcity of mature joining methods.
拥有良好综合性能的金属基复合材料的应用往往受到没有成熟连接方法的限制。
The paper reviews and analyzs the influence of some intrinsicfactors of metal matrix composites( MMCs) on the wear performances.
综述和分析了金属基复合材料内部因素对磨损性能的影响。
The paper deals with the structure and performance of carbon fibre used in MMCs and especially the reaction between it and some metals.
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 fabrication of metal matrix composites (MMCs) by using casting technique is accepted as a promising route for large quantity production.
在金属基复合材料的制备方法中,液态铸造法具有广泛的应用和发展前景。
Methods A questionnaire survey was conducted among the students who came from key senior high school and common senior high school by using MMCS, FIS and GSES.
方法采用归因方式量表(MMCS)、缺陷感量表(FIS)和一般自我效能感量表(GSES)对深圳市某重点高中和某普通高中进行分班集体测试;
In this paper, a brief introduction is made about the equipment, especially some feature equipment, and the research aspects of the state key laboratory of MMCs.
本文对金属基复合材料实验室的研究内容、设备装置、特别是对特色设备性能作了简要介绍。
The strengthening mechanisms and strength prediction have always been the focus of investigation, because these are critical to the design of metal matrix composites (MMCs).
复合材料的强化机制和强度预报一直是材料学的研究热点,因为这涉及到材料的组织设计问题。
The stress-strain curve under transverse loading of MMCs has a corner point, associated with the initiation of interfacial de-bonding, which is determined by the interfacial bonding strength.
在常响应界面情况下,复合材料横向拉伸应力-应变曲线存在明显的转折点,对应于界面分离的起始点,转折点的位置取决于界面粘结强度。
In this paper, interfacial reactions in MMCs, the effects of interfaces on properties and the effective ways to control interfacial reactions and to optimize interfacial structures were discussed.
本文讨论金属基复合材料的界面反应,界面对性能的影响,以及控制界面反应和优化界面结构的有效途径等问题。
In this paper, interfacial reactions in MMCs, the effects of interfaces on properties and the effective ways to control interfacial reactions and to optimize interfacial structures were discussed.
本文讨论金属基复合材料的界面反应,界面对性能的影响,以及控制界面反应和优化界面结构的有效途径等问题。
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