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1.
Preparation of High Surface Specific Area Silicon Carbide and Its Application in CO Oxidation Reaction;
高比表面积碳化硅的合成及其在CO氧化反应中的应用
2.
Preparation of High Surface Specific Area Silicon Carbide and Its Application in Ammonia Synthesis;
高比表面积碳化硅的合成及在氨合成反应的应用
3.
Epitaxial Graphene on SiC
碳化硅表面的外延Graphene
4.
Mechanochemical Synthesis of High Surface Area Carbon Deposited Supercapacitor Materials NiO
机械化学法制备高比表面积碳负载NiO超级电容器材料
5.
Mechanism and Influencing Factors on Surface Roughness of Ultra-smooth Polishing of Chemical Vapor Deposition Silicon Carbide
化学气相沉积碳化硅超光滑抛光机理与表面粗糙度影响因素
6.
High-precision and Super-smooth Fabrication of CVD SiC Flat Reflecting Mirror
化学气相沉积碳化硅平面反射镜的高精度超光滑加工
7.
Synthesis of with high specific surface area β-SiC using starch as carbon source
以淀粉为碳源碳热还原法合成多孔高比表面积β-SiC
8.
Surface Coating of Silicon Carbide Material for Aerospace Optical Application
碳化硅空间光学材料的表面改性研究
9.
On the Silica-Coated Surface of Magnesium Carbonate Particles
碳酸镁颗粒表面包覆二氧化硅的研究
10.
Surface Coating Technique of Reaction Bonded SiC Mirrors
反应烧结碳化硅反射镜表面改性技术
11.
A Study on the Synthesis, Characterization and Properties of High Surface Area Carbon Supports NiO Supercapacitor Materials
高比表面积碳负载NiO超级电容器材料的制备、表征及性能研究
12.
Latest research progress in preparation of titanium dioxide with high specific surface area
高比表面积二氧化钛制备研究新进展
13.
Preparation of High Specific Surface Area MgO by a Gel-Templating Route
凝胶-模板法制备高比表面积氧化镁
14.
High frequency discharge plasma induced grafting of PMMA onto silicon carbide powder
高频放电等离子体引发碳化硅表面接枝聚合甲基丙烯酸甲酯
15.
Growth of SiC Crystal by High Temperature Chemical Vaporous Deposition(HTCVD)
高温化学气相沉积法生长碳化硅晶体(HTCVD)
16.
Tungsten powder and tungsten carbide powder--Determination of specific surface product (average graininess--Simplified nitrogen absorption method
GB/T2596-1981钨粉、碳化钨粉比表面积(平均粒度)测定简化氮吸附法
17.
Study of Si-Coated Carbon Nanotube and Silicon Carbide Whisker and Properties of Coating;
碳纳米管和碳化硅晶须表面镀硅及镀层性能的研究
18.
Nitric acid has much more surface chemistry effects on the low modulus carbon fiber than high modulus one.
硝酸氧化对低模量碳纤维的表面改性远比高模量碳纤维的大。