1.
Synthesis of ZrW_2O_8/ZrO_2 composites with low thermal expansion using in-situ solid state reaction method
原位反应固相法合成低热膨胀ZrW_2O_8/ZrO_2复合材料
2.
Sr_3Al_2O_6: Eu Phosphor Synthesized by Solid State Reaction Method;
用高温固相反应法合成Sr_3Al_2O_6:Eu荧光材料
3.
Research on the Synthesis of ZrW_2O_8 by Solid State Reaction Method
固相反应法制备ZrW_2O_8的研究
4.
Synthesis Research on Rare Earth Doped Strontium Aluminate Long Afterglow Luminescent Material
低温固相反应法合成铝酸锶铕镝研究
5.
Preparation and characterization of solid state reaction of LaCoO_3
LaCoO_3的固相反应法制备与表征
6.
Solid State Synthesis of CoFe_2O_4 Nanoparticles at Low Heating Temperatures
低温固相反应法制备CoFe_2O_4纳米颗粒
7.
Al_2O_3p/Al-Cu matrix composites produced by in-situ reactive near-liquidus casting
采用原位反应近液相线铸造法制备Al_2O_3p/Al-Cu基复合材料
8.
Study of MoSi_2-SiC Composites Synthesized in Situ Using Solid State Displacement Reactions;
固态置换反应原位合成MoSi_2-SiC复合材料研究
9.
Studies on Thermochemistry of Solid State Coordination Reaction of 1,10-Phenanthroline with Cupric Chloride;
邻菲咯啉与氯化铜固相配位反应的热化学研究
10.
Kinetics Study of Mitsunobu Reaction on Resin Supports
固相Mitsunobu反应动力学研究
11.
STUDIES ON THE SOLID STATE REACTION OF COORDINATION COMPOUNDS ⅩⅩⅩⅥ. THE INTERACTION OF K_2Ni(CN)_4 WITHACIDIC SUPPORTS
固相配位化学反应研究 ⅩⅩⅩⅥ.四氰合镍酸钾与酸性载体间的相互作用
12.
The Preparation of Nanometer Barium Carbonate by Solid-state Reaction at Room Temperature;
室温固相反应法制备纳米碳酸钡的研究
13.
Study on Flow Injection Analysis Based on Solid-phase Reactor On-line Oxidation;
固相反应器在线氧化流动注射分析法研究
14.
Preparation and Luminescence Characteristics of BaHfO_3∶Ce Nanoparticles by the Process of Solid-State Reaction
固相反应法制备BaHfO_3:Ce纳米粒子及发光特性
15.
Yttrium aluminum garnet synthesized by low temperature solid state pyrolitic reaction
低温固相反应法合成钇铝石榴石粉体的研究
16.
Study on preparation of nano-SnO_2 by ball-milling solid chemical reaction at ambient temperature
室温球磨固相反应法制备纳米SnO_2的研究
17.
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
18.
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