1) TiO2 carbothermal reduction(CR)
TiO2碳热还原
2) Carbothermal reduction
碳热还原
1.
Analysis of carbothermal reduction of TiO_2 and extraction of titanium carbonitride from the blast furnace slag bearing titania;
TiO_2碳热还原与高炉钛渣提取碳氮化钛分析
2.
Research on synthesis of TiC by sol-gel and carbothermal reduction method;
溶胶-凝胶和碳热还原法制备碳化钛的研究
3.
Synthesis of lithium iron phospho-olivines by aqueous precipitation and carbothermal reduction;
沉淀-碳热还原联合法制备橄榄石磷酸铁锂
3) carbothermic reduction
碳热还原
1.
Thermodynamic study on the reaction of producing aluminum subchloride by carbothermic reduction and chlorination of alumina;
氧化铝碳热还原氯化法制低价氯化铝反应的热力学研究
2.
The co-operative catalytic effect of alkali chlorides on the carbothermic reduction of pre-oxidized ilmenite;
碱金属氯化物对预氧化钛铁矿碳热还原反应的协同催化作用
3.
Study on Refining Lithium by Vacuum Distillation and Preliminary Study on Preparing Lithium from Li_2CO_3 by Vacuum Carbothermic Reduction;
真空精炼锂的研究与氧化锂真空碳热还原初探
4) carbon thermal reduction
碳热还原
1.
A microwave carbon thermal reduction and nitridation method has been used for successful preparation on vanadium nitride under normal flowing nitrogen gas pressure atmosphere starting from vanadium pentoxide and carbon black.
以五氧化钒和碳黑为原料,通入流动的氮气利用微波碳热还原成功地制备了氮化钒。
2.
The preparation of nitridation was studied synthesizing β′-Sialon powder by carbon thermal reduction method of kaolin clay.
研究了高岭土的碳热还原氮化合成β′ Sialon粉体的制备方法,用XRD和SEM分析表明:在添加1wt%Fe2O3,碳含量为38。
3.
It lays stress on introducing the thermodynamic principles, nitriding system and the newest approaches of preparing titanium nitride by titanium dioxide carbon thermal reduction, and prospects for the application of titanium nitride powder.
简要概述了氮化钛粉体合成方法的研究进展,重点介绍了二氧化钛碳热还原氮化制备 氮化钛的热力学原理、氮化系统和最新方法,并对氮化钛粉体的应用前景进行了展望。
5) carbon-thermal reduction
碳热还原
1.
Preparation and electrochemical characteristics of Sn-C composite materials by carbon-thermal reduction;
碳热还原法制备Sn-C复合材料及其性能
2.
The basic theory of microwave radiation and the heatingup characteristic of some mineral in microwave are introduced, and the current situation and recent progress of microwave radiation applied to metallurgical carbon-thermal reduction is emphasized.
介绍了微波加热的基本原理以及矿物在微波场中的升温特性,重点介绍了微波加热在冶金碳热还原中的应用现状,并分析了微波加热碳热还原技术应用于铁合金生产的前景。
3.
The method of producing low Aluminium FeB by carbon-thermal reduction are introduced.
介绍了碳热还原制取低铝硼铁的一些生产方法,并指出了碳热还原法尚需研究解决的一些主要问
6) ca rbothermal synthesis
热碳还原
补充资料:Tio2
钛的氧化物——二氧化钛,是雪白的粉末,是最好的白色颜料,俗称钛白。以前,人们开采钛矿,主要目的便是为了获得二氧化钛。钛白的粘附力强,不易起化学变化,永远是雪白的。特别可贵的是钛白无毒。它的熔点很高,被用来制造耐火玻璃,釉料,珐琅、陶土、耐高温的实验器皿等。
二氧化钛是世界上最白的东西, l克二氧化钛可以把 450多平方厘米的面积涂得雪白。它比常用的白颜料一—锌钡白还要白5倍,因此是调制白油漆的最好颜料。世界上用作颜料的二氧化钛,一年多到几十万吨。二氧化钛可以加在纸里,使纸变白并且不透明,效果比其他物质大10倍,因此,钞票纸和美术品用纸就要加二氧化钛。此外,为了使塑料的颜色变浅,使人造丝光泽柔和,有时也要添加二氧化钛。在橡胶工业上,二氧化钛还被用作为白色橡胶的填料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条