铜基原位复合材料,copper based in-situ composite
1)copper based in-situ composite铜基原位复合材料
英文短句/例句
1.Microstructure and Properties of Copper-Based in Situ Composites by Equal Channel Angular PressingECAP铜基原位复合材料的组织与性能研究
2.Research Situation and Developmental Tendency of Deformation Processed Copper Based In-situ Composite形变铜基原位复合材料的研究现状及展望
bustion and In-Situ Reaction Synthesis of Dual-phase Ceramic Reinforced Copper-based Composites;燃烧反应原位合成双相陶瓷增强铜基复合材料
4.High Tensile Strength and High Conductivity In-Situ Deformation Composite of Copper-Steel;高强度高导电铜钢原位形变复合材料
5.In-situ Synthesis of Carbon Nanotubes (Fibers) Supported on Copper and the Properties of Their Composites铜基体上原位合成碳纳米管(纤维)及其复合材料的性能
6.Study on the Fabrication and Wear Properties of Copper Matrix Composite Reinforced by In-situ Al_2O_3 Particle原位Al_2O_3颗粒增强铜基复合材料的制备及其耐磨性能研究
7.In Situ Synthesis of Al_3Ti Particulate-Reinforced Aluminum Matrix Composites;原位合成Al_3Ti增强Al基复合材料的研究
8.The Research on Preparation of Al Matrix Composites by in Situ Reaction原位合成Al基复合材料制备工艺研究
9.Study on Fabrication and Properties of in Situ ZA27 Alloy Matrix Composites原位ZA27基复合材料的制备及性能研究
10.RESEARCH DEVELOPMENT OF IN-SITU FIBRILLATION COMPOSITE BASED ON POLYPROPYLENE聚丙烯基原位成纤复合材料研究进展
11.In-situ WC-Cr_3C_2 Carbide Cermets Reinforced Surface Composites on a Ferrous Matrix原位自生WC-Cr_3C_2复相陶瓷增强铁基表面复合材料
12.Research on the in-situ Synthesized Hypereutectic Aluminum-silicon Matrix Composites with Heat-resisting and Wear-resisting;原位合成耐热耐磨高硅铝基复合材料的研究
13.In-situ Synthesis of TiC、TiB Reinforcement for Titanium Matrix Composites;钛基复合材料TiC、TiB增强相的原位反应合成
14.Laser In-situ Fabricated, Microstructures, and Properties of Ni_3Si Based Composites;Ni_3Si基复合材料的激光原位合成与组织性能研究
15.High Temperature Creep Behavior of in-situ synthesized Titanium Matrix Composites原位合成钛基复合材料的高温蠕变行为
16.Iron matrix composite reinforced by hybrid of in-situ WC particles and tungsten wires原位合成WC颗粒与钨丝混杂增强铁基复合材料
17.Superplasticity of in-situ synthesized(TiB+TiC)/7715D titanium matrix composite原位合成(TiB+TiC)/7715D钛基复合材料的超塑性
18.Study on Iron Matrix Surface Composite Reinforced by In Situ VC Particulates原位合成VC颗粒增强铁基表面复合材料的研究
相关短句/例句
Cu-based in-situ composite原位铜基复合材料
1.This paper reviews the fabrication processes of deformation processedCu-based in-situ composites as well as microstructure evolution and combined properties, introduces the strengthening and electric conduction mechanisms of this materials.综述了形变原位铜基复合材料的制备方法、组织演变及综合性能特点,介绍了该类材料的强化和导电机理。
3)Cu-based deformation in-situ composites铜基形变原位复合材料
4)in-situ deformation copper-steel composite materials铜钢原位形变复合材料
5)in-situ synthesized Ti matrix composites原位自生钛基复合材料
6)Al-matrix in-situ composite铝基原位复合材料
延伸阅读
金属基复合材料原位生长成型金属基复合材料原位生长成型in- situfabrication of metal matrix composites金属基复合材料原位生长成型动一sl’tu fabrica·tion of metal matrix eomposites金属在一定组成和环境条件下,局部形成增强体与原金属构成的复合材料。例如,定向凝固使参与共晶反应的a和刀两相同时从液相中以棒状或层状规则排列生长。另外,如有包晶或偏晶反应的两相合金,或成分偏离共晶成分,也能通过定向凝固使两相规则排列生长,但工艺条件苛刻。原位生长成型必须满足3个条件:①有温度梯度的加热方式;②满足平面凝固条件;③两相的成核和生长要协调进行。二元系共晶材料的平面凝固条件为立、月丛丝鱿‘旦立V一Z人式中认为液相温度梯度,V为凝固速度,mL为液相线斜率,Q为共晶成分,Co为合金成分,及为原溶质在液相中的扩散系数。在定向凝固设备上要求有很大的认。目前原位生长成型有功率降低法(民约30℃/cm)、快速凝固法(位约100℃/cm)、液态金属冷却法(仅约300℃/cm)、流态床急冷法(GL约300℃/cm)和区域熔化液态金属冷却法(q约1200℃/cm)。后者制备大直径试棒尚有困难,一般采用快速凝固法,因为它设备简单,操作方便,不受液态金属的污染。(胡壮麒)
