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采用半固态搅熔复合及模锻方法制备Al2 O3 /Al复合材料 ,讨论了工艺参数对Al2 O3 颗粒在铝合金液中的吸收性与分散性的影响 ,并对所得复合材料的强度、冲击韧性和耐磨性进行了实验。结果表明 ,通过选择合适的工艺参数 ,可以很好地解决Al2 O3 颗粒在Al合金液中的分散性问题 ,所得复合材料具有一定韧性和良好的耐磨性能。 相似文献
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按照采用热源和陶瓷增强颗粒的添加方式,对外加颗粒增强表层复合材料的制备方法分类.详细介绍了堆焊、激光熔覆、激光熔射、等离子熔化-注射等颗粒增强表层复合材料的制备方法,并分析了各种制备技术的优缺点.堆焊特点是基体与表层为冶金结合,效率高.激光熔覆可以实现输入的准确控制,冷却速度快,热畸变小.但是堆焊和激光熔覆过程都存在裂纹问题.激光熔射不受基体可焊性限制,可制备颗粒增强相连续分布的表层,避免裂纹的形成.等离子熔化-注射技术与激光熔射技术类似,可以制备出增强相体积分数从0~100%连续变化的梯度复合材料.避免由于增强颗粒分布不均引起的裂纹,实现低投入、低成本运行. 相似文献
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The distribution of stress and strain between adjacent particles in particulate reinforced metal matrix composites was investigated using cohesive zone models. It is found that the strain of the composite is concentrated in the matrix, and there is a region with higher strain along the loading path, which can promote the formation of a void near the particles pole. The stress and strain in matrix near the particles gradually decrease with the increase of the distance between particles. And it is calculated that there is a critical distance within which the stress and strain fields of the neighboring particles can influence with each other. This critical distance increases with the increase of particle size. It is also found that the angle between the tensile direction and the center line of particles plays an important role in the stress and strain distribution. The model with the angle of 0° has the greatest influence on the distribution of stress and strain in the matrix, while the model with the angle of 45° has the least influence on the distribution of stress and strain in the matrix. 相似文献
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改善颗粒增强金属基复合材料塑性和韧性的途径与机制 总被引:17,自引:5,他引:17
评述了影响颗粒增强金属基复合材料塑性和韧性的各种因素,在此基础上深入研究了颗粒形状对SiCp/LD2复合材料塑性和断裂韧性的影响规律。采用有限单元法分析不同形状的SiC颗粒增强的LD2复合材料的微区力学环境和整体力学行为,结果表明颗粒的尖锐化导致基体内应变集中和颗粒尖端断裂的可能性加剧,因而降低材料的塑性;而在外加载荷的作用下,由于复合材料基体整体均处于较高的加工硬化状态,因此颗粒形状对材料断裂韧 相似文献
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The damage characteristic of particle reinforced metal matrix composite (PMMC) was studied by ultrasonic non-destructive evaluation method. After the sample was damaged induced by tensile load, the ultrasonic wave that propagated in the sample were collected. The damage parameter was defined by ultrasonic parameter and the wave signals were analyzed by correlation method. The results show that with the increase of tensile load, the damage parameter increases and the correlation coefficient decreases. The fracture section morphologies of PMMC under tensile load were observed by SEM. It is found that there are many concaves in the metal matrix. Therefore the damage evolution can be concluded. The initial damage is induced by void nucleation, growth and subsequent coalescence in the matrix or interface separation. 相似文献
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Cavitation-erosion mechanism of laser cladded SiC particle reinforced metal matrix composite 总被引:2,自引:0,他引:2
With 2 kW continuous wave Nd YAG laser, SiC ceramic powder was laser-cladded on the AA6061 alurniniurn alloy surface. Within the range of process parameters investigated, the parameters were optimized to produce the SiCk, reinforced metal matrix composites(MMC) modified layer on AA6061 alloy surface. After being treated, the modified layer is crack free, porosity-free, and has good metallurgical bond with the substrate. The microstructure and chemical composition of the modified layer were analyzed by such detection devices as scanning electronic microscope(SEM EDX) and X ray diffractometer(XRD). The performance of electrochemical corrosion and cavitation erosion and their mechanism were estimated by the microhardness tester, potentiostat and ultrasonicinduced cavitation device. 相似文献
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The non-traditional machining of particulate reinforced metal matrix composites is relatively new. However, researchers seem to pay more attention in this field recently as the traditional machining of particulate reinforced metal matrix composites is very complex. This research investigates different non-traditional machining, such as electro-discharge, laser beam, abrasive water jet, electro-chemical and electro-chemical discharge machining of this composite materials. The machining mechanism, material removal rate/machining speed and surface finish have been analysed for every machining process. This analysis clearly shows that vaporisation, melting, chemical dissolution and mechanical erosion are the main material removal mechanisms during non-traditional machining. The thermal degradation and the presence of reinforcement particles mainly damage the machined surface. The understanding of electro-discharge, laser beam and abrasive water jet machining is more developed than that of electro-chemical and electro-chemical discharge machining for particulate reinforced MMC. 相似文献
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The particle characteristics of 15% SiC particles reinforced metal matrix composites (MMC) made by powder metallurgy route were studied by using a statistical method. In the analysis, the approach for estimation of the characteristics of particles was presented. The study was carried out by using the mathematic software MATLAB to calculate the area and perimeter of each particle, in which the image processing technique was employed. Based on the calculations, the sizes and shape factors of each particle were investigated respectively. Additionally, the finite element model (FEM) was established on the basis of the actual microstructure. The contour plots of von Mises effective stress and strain in matrix and particles were presented in calculations for considering the influence of microstructure on the deformation behavior of MMC. Moreover, the contour maps of the maximum stress of particles and the maximum plastic strain of matrix in the vicinity of particles were introduced respectively. 相似文献
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A modified mixed strengthening model was proposed for describing the yield strength of particle reinforced aluminum matrix composites. The strengthening mechanisms of the composites were analyzed based on the microstructures and compression mechanical properties. The distribution uniformity of reinforcements and cooperation relationship among dislocation mechanisms were considered in the modified mixed strengthening model by introducing a distribution uniformity factor u and a cooperation coefficient fc, respectively. The results show that the modified mixed strengthening model can accurately describe the yield strengths of Al3Ti/2024 Al composites with a relative deviation less than 1.2%, which is much more accurate than other strengthening models. The modified mixed model can also be used to predict the yield strength of Al3Ti/2024 Al composites with different fractions of reinforcements. 相似文献
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The need for new engineering materials with theadvancement of modern technology in the areas ofaerospace, automotive and numerous other industries haslead to a rapid development of metal matrix composites(MMCs) [1]. They can be tailored to have outstandingmechanical and physical properties such as high specificstrength and stiffness, good wear resistance, enhancedhigh-temperature performance, and better thermal andmechanical fatigue and creep-resistance than that ofmonolithic materials. Among… 相似文献
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钛基复合泡沫材料由于其优异的生物相容性、抗腐蚀性以及可改的弹性模量,具有极大的生物医用潜力。采用粉末冶金工艺制备嵌入厚壁陶瓷微珠的钛基复合泡沫材料。分析和测试这种钛基复合泡沫材料的微观结构、压缩性能以及弹性模量。结果表明:厚壁陶瓷微珠能够显著提高材料的抗压强度;提高厚壁陶瓷微珠的体积分数,能够使材料的抗压强度获得极大的提高,同时,这种强度的提高并没有引起弹性模量的显著提高。该材料的弹性模量仍然与人体骨骼相近。 相似文献
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Y. Waku N. Nakagawa Y. Ohsora T. Takahashi K. Shimizu T. Yamamura A. Ohmori 《Journal of Thermal Spray Technology》1992,1(2):171-178
An investigation of the production of aluminum matrix composite sheet reinforced with continuous Si-Ti-C-O fibers was performed
by a plasma spraying method. The unidirectionally reinforced Si-Ti-C-O fiber/Al prepreg sheet (300 by 3000 mm, 0.1 to 0.15
mm thick, with 40 vol. % Fiber) was fabricated by plasma spraying under atmospheric conditions. The depth of the oxidation
layer formed on the surface of the metal matrix composite (MMC) prepreg sheet was found to be about 200 Å, and this value
is almost independent of the atmosphere during plasma spraying. The fibers homogeneously disperse and do not contact each
other in the matrix of the MMC prepreg. No damage on the surface of the extracted fibers from the MMC prepreg sheet can be
observed. The MMC prepreg sheet was used to produce MMC plate by hot pressing at 640 to 680 °C under 9.8 MPa. The flexural
strengths in the longitudinal and transverse directions of the MMC plate pressed at 660 °C were 1.0 and 0.25 GPa, respectively. 相似文献
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1 Introduction Selective laser sintering(SLS) is one of a few rapid prototyping(RP) techniques, which enables fabrication of three-dimensional(3D) parts with arbitrary shapes directly from metal powder with no or minimal post-processing[1?3]. In this meth… 相似文献
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1 INTRODUCTIONDuetolargerdifferenceinthermalexpansionco efficientbetweenthefiberandthematrixandspecialgeometricalshapeofthefiber ,thethermalresidualstresses (TRS) generatedduringcoolingfromhigh(processing)temperaturetoroomtemperaturehaveimportantinfluence… 相似文献
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Microstructures and mechanical properties of transient liquid phase (TLP) bonded magnesium metal matrix composite ( MMC) joints using copper interlayer have been investigated. With an increase of bonding times from 5 min to 50 min at bonding temperature of 510 ℃ , the average concentration of copper in the bonded zone decreased, the microstructure in the zone changed from Cu, α-Mg and CuMg2 to α-Mg, CuMg2 and TiC, and mechanical properties of the joint increased. The shear strength of the joint bonded at 510 ℃ for 50 min reached 64 MPa due to the metallurgical bonding of the joint and improving its homogeneity of composition and microstructure. It is favorable to increase the bonding time for improving mechanical properties of TLP bonded magnesium MMC joint. 相似文献
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A numerical micromechanical method is adopted here to investigate the tensile strength of metal matrix composites (MMC) by
considering interface and matrix damage evolution. A cohesive zone model is employed to simulate the fiber/matrix interface
damage. The damage in the matrix, which characterizes microvoid nucleation, growth and coalescence, is described in term of
the Gurson-Tvergaard material model. These damage models are performed to a boundary value problem that involves a double
periodic array of elastic continuous fibers in the elastic-plastic matrix subjected to transverse loads. The main attempt
is made to investigate effects of interface strength and toughness on tensile strength of MMC. 相似文献