1.
Effect of Indian Fine Ore on Reduction Degradation Index of Sinter at Low Temperature in Angang
印度粉矿对鞍钢烧结矿低温还原粉化指标影响
2.
Study on Improving Reduction Disintegration Index of the Low-temperature Sinter
改善烧结矿低温还原粉化指数的研究
3.
Fluorite can improve low temperature breakdown property of sinter.
其中前者还改善了烧结矿的低温还原粉化性能。
4.
Research on Improving the Property of Anti-pulverization in Low-temperature Reduction of Low Silicon Sinter
改善低硅烧结矿低温还原粉化性能的研究
5.
The Relation between the Microstructure of Sinter Ore with High Basicity and Reduction Disintegration
高碱度烧结矿显微结构与低温还原粉化的关系
6.
Disabuse on Reduction Degradation Index(RDI) of sinter experimentation
烧结矿低温还原粉化性能试验方法释疑
7.
The Preparation of Amorphous Boron Powder by the Method of Heating Reduction with Magnesium of High-temperature Synthesis and Its Industrialization;
镁热还原法制备无定形硼粉与工业化
8.
The Catalytic Reduction of Nitrite by Carbon Nanotube Powder Microelectrodes;
碳纳米管粉末微电极对NO_2~-的催化还原
9.
Results show that nano-sized ferric oxide has high reactivity, lower reduction temperature for superfine iron powder preparation.
用纳米氧化铁粉末作原料,分别在不同的温度,不同的还原时间下,用氢气还原来制备微细铁粉。
10.
Study on the Preparation of Cobalt Nanoparticles by Complexing Chemical Reduction in Aqueous Solution;
络合溶液化学还原法制备纳米钴粉的研究
11.
Self-Propagating Magnesiothermic Reduction Synthesis of High Purity ZrB_2 Micro-Powders;
自蔓延镁热还原法制备高纯度二硼化锆微粉
12.
Study on the Preparation of Silver Nanoparticles by Chemical Reduction Using Sodium Hypophosphite in Solution;
次磷酸钠液相化学还原法制备纳米银粉的研究
13.
Study on Preparation of Calcium Hexaboride Powder by SHS
自蔓延镁热还原法制备六硼化钙粉末研究
14.
Semi-automatic determination of reducing sugar in starch sugar by electrochemical method
淀粉糖生产过程中还原糖的半自动电化学检测
15.
Preparation of ultra-fine silver powder utilized in paste for solar cell grid electrode
化学还原制备太阳能电池正极浆料用超细银粉
16.
Research on Chemical-reduction Technology and Mechanics for Preparing Ultrafine Copper Powders
化学还原法制备超细铜粉工艺及机理研究
17.
Theoretic analysis of preparation of ultramicro powder through multi-phase oxidation reduction
多相氧化还原法制备超微粉末的理论分析
18.
The Synthesis of Hydrazobenzene through Zn-NH_4X Reductive System
锌粉-卤化铵还原体系用于N,N′-二苯肼的合成