1.
Research on Aluminum Matrix Composites Synthesized by Direct Melt Reaction under High Intensity Ultrasonic;
高能超声作用下熔体反应合成铝基复合材料的研究
2.
Further discussion on the genesis of the podiform chromite deposits in the ophiolites--questioning about the rock/ melt interaction metallogeny
再论蛇绿岩中豆荚状铬铁矿的成因——质疑岩石/熔体反应成矿说
3.
Study on Flux Reaction of Luminophor SrAl_2O_4: Eu~(2+), Dy~(3+)
发光体SrAl_2O_4:Eu~(2+),Dy~(3+)的助熔反应研究
4.
Interaction between the refractories and molten TiNi alloy
耐火材料与TiNi合金熔体的界面反应
5.
High-melt-viscosity polypropylene prepared by PP/EPDM reactive extrusion blending method
PP/EPDM反应挤出共混制备高熔体黏度PP的研究
6.
alkali fusion reaction gas chromatography
碱熔反应气相色谱(法)
7.
Melt-Peridotite Reaction: Constraints on Spinel Compositional Variation from Mantle Xenoliths;
熔体与橄榄岩反应:对地幔包体中尖晶石成分变异的制约
8.
Thermal Decomposition Kinetics of Titanium Hydride and Aluminium Alloy Melt Foaming Process;
氢化钛热分解反应动力学与铝合金熔体泡沫化过程研究
9.
Research on the High-Melt-Strength Polypropylene for Foaming Prepared by Reactive Extrusion;
反应挤出法制备发泡用高熔体强度聚丙烯的研究
10.
Structure and Properties of C/SiC Friction Material Made by Reactive Melt Infiltration;
反应熔体浸渗法制备C/SiC摩阻材料的结构与性能
11.
The Interfacial Reaction Law and Micromechanism between Titanium Alloy Melts and Ceramic Mould;
钛合金熔体与陶瓷铸型界面反应规律及微观机理研究
12.
Laser in-situ Reaction Cladding of Titanium boride/titanium Composite on Titanium Substrate
钛基体上激光原位反应熔覆硼钛化物/钛复合涂层(英文)
13.
Microstructure and Cutting Performance of TiB_2/ZL101 Composites Prepared by Direct Reaction Method
熔体直接反应法制备TiB_2/ZL101复合材料的显微组织及切削性能
14.
PREPARATION OF CALCIUM ZIRCONATE AND ITS INTERFACIAL REACTION WITH MOLTEN TITANIUM ALLOYS
CaZrO_3耐火材料的制备及其与钛合金熔体的界面反应
15.
Mechanical Properties and Microstructure of TiB_2/Al Composite Prepared by Direct Reactive Method
熔体直接反应法制备TiB_2/Al复合材料的显微组织和力学性能
16.
Equilibrium Comparison
金属的相融、相融温度、晶体反应及合金在共晶合金、固熔孻共晶合金及偏晶反应的比较
17.
Study of the Transport Theory in Heavy Ions Fusion Reactions and Strongly Damped Reactions;
重离子熔合反应和强阻尼反应的输运理论研究
18.
The study emphases the mechanism of the fusion stage of the reactions.
研究的重点是熔合阶段的反应机制。