1.
Microstructure and Properties of Copper-Based in Situ Composites by Equal Channel Angular Pressing
ECAP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
3.
Combustion 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