熔渗

  • 网络infiltration;infiltrating
熔渗熔渗
  1. Ti(C,N)基金属陶瓷熔渗/氮化复合表面处理

    Multiple Surface Treatment of Ti ( C , N ) - based Cermet by Melt Infiltration and Nitridation

  2. 真空&压力熔渗制备B4C基金属陶瓷复合材料的研究

    Study on boron carbide-aluminum composite by vacuum-pressure infiltration

  3. 熔渗烧结制备Ti3SiC2反应机理的研究熔析法-金属精炼

    Study on the reaction mechanism of Ti_3SiC_2 by melt infiltration sintering method

  4. 烧结熔渗过程中W和Ti扩散溶解的研究

    Diffusion of W and Ti during Sintering and Infiltration

  5. 高体积比SiCp/6013Al复合材料反应熔渗制备与热学性能

    Reactive Infiltration Processing and Thermal Properties of SiC_p / 6013Al Composite with High SiC Particle Content

  6. 树脂膜熔渗工艺用FRP模具的设计与制备

    Design and Manufacture of FRP Mould in RFI Experiment

  7. 合金元素Ni、Mo、W及熔渗铜对烧结钢耐磨性的影响

    Influence of alloy elements Ni 、 Mo 、 W and copper infiltrated on wear resistance of sintered steels

  8. 采用先烧结骨架再渗Cu的熔渗工艺制备了一系列WCr/Cu复合材料。

    W - Cr / Cu composites were prepared by infiltration method .

  9. 确定了Al-Si复合材料压力熔渗和热挤压工艺参数;

    The processing parameters of pressure infiltration and hot extrusion were confirmed .

  10. 临界熔渗压力与SiC颗粒尺寸及反应程度有关。

    The critical pressure for preparation is related to the dimension of SiC particles and extent of the reaction .

  11. 本文用包埋熔渗法和气相沉积法分别制备了SiC涂层。

    In this paper , using embedding melt infiltration method and deposition method , we prepared the SiC coating .

  12. H2气氛熔渗CuW触头材料性能的研究

    Study on Properties of CuW Contact Infiltrated under H2 Atmosphere

  13. 用反应压力熔渗法制备高含量SiCP/6013Al复合材料及其力学性能

    Preparation of SiCp / 6013Al Composite with High SiC Particles Content in Reactive Pressure Infiltration Processing and Its Mechanical Properties

  14. 针对轴向、径向两种压制方向成型的WCu合金,采用烧结熔渗法制备WCu/Cu整体电触头材料,测定结合面的抗拉强度及WCu合金的电性能、显微组织和抗弯强度。

    W-Cu and copper solid electrical contact materials , which were prepared by axial and radius direction pressing were fabricated by sintering-infiltration method .

  15. PDC材料烧结过程中钴在金刚石层中的扩散熔渗迁移机制

    Diffusion and Infiltration Mechanisms of Cobalt through Diamond Layer during the Sintering of Polycrystalline Diamond Compacts

  16. 添加15%Mo对反应熔渗Al制备MoSi2复合材料组织和力学性能的影响

    The Effect of 15 wt % Mo Addition on the Microstructure and Mechanical Properties of MoSi_2 Composite

  17. 熔渗反应法制备MoSi(2-)SiC复合材料性能的影响因素

    Influence Factor of MoSi_ ( 2 - ) SiC Composites Synthesised by Reactive Infiltration Processing

  18. 分析了压力熔渗和热挤压工艺对Al-Si复合材料成形性、组织和性能的影响;

    The influences of the processing parameters on the formability , the microstructure and the properties of Al-Si composites were discussed .

  19. 结果表明:利用熔渗法可制备高致密的316L不锈钢,相对密度可达98%以上;

    The results show that it is possible to produce 316L stainless steel by using the infiltration technology .

  20. 熔渗法CuW触头材料W骨架压坯密度理论计算公式的研究

    Study on the Calculated Formula of the Green Density of W Skeleton of CuW Contact Materials Manufactured by Infiltration

  21. 反应熔渗烧结法制备MoSi2/SiC复合材料

    Mosi_2 / sic composite prepared by using reaction - melting infiltration sintering

  22. 文摘通过模具材料的选择、分型和模具中加热装置的合理设计,制备出树脂膜熔渗工艺(RFI)实验用FRP模具。

    Though selection of mould materials and reasonable design of parting line and mould heating system , FRP mould is manufactured .

  23. 采用反应熔渗法在低压力下制备高体积比SiCp/Al复合材料,并研究其热学性能。

    The SiC p / Al composite with high SiC particle content is prepared by reactive infiltration under low pressure , and the thermal properties of the composite are investigated .

  24. 熔渗和液相法烧结Mo-Cu合金的组织和性能

    Tissues and Properties of Mo-Cu Alloy Prepared by Infiltration and Liquid-phase Sintering

  25. 树脂膜熔渗工艺(RFI)是一种新型的复合材料成型工艺。

    Resin film infusion ( RFI ) is a new technique for the manufacture of composite structures .

  26. 钨粉粒径对熔渗法制备的CuW触头材料硬度的影响

    Effects of Tungsten Powder Size on Hardness of W-Cu Contact Produced by Infiltration

  27. 用熔渗法制备的W-cu复合材料在小批量生产时,发现熔渗结束后样品的热导率数据分散不稳定,受熔渗时摆放位置的影响很大。

    The thermal conductivity of W-Cu composites is affected by the position where they were placed in during infiltrating .

  28. 熔渗法AgW(75)触头材料研究

    Study of AgW ( 75 ) Electrical Contact Material With Infiltration Technology

  29. 对粉末冶金熔渗技术制备的不同成分WCu合金在-196℃,保温48h进行深冷处理。

    W-Cu alloys prepared by powder metallurgy infiltration method were treated at - 196 ℃ for 48h .

  30. 采用粉末注射成形制备SiC预成形坯和铝合金无压熔渗相结合的技术,成功制备出高体积分数且形状复杂的SiCp/Al复合材料零件。

    The high reinforcement volume fraction SiC_p / Al composite parts with complex shape can be produced successfully by combination of powder injection molding ( PIM ) for SiC preform preparation and aluminum pressureless infiltration .