碳热还原法

  • 网络CTR;Carbothermal Reduction;carbonthermal reduction
碳热还原法碳热还原法
  1. 碳热还原法合成B4C及B4C/TiB2复合粉末的研究

    Research on the Synthesis of B_4C and B_4C / TiB_2 Composite Powder by Carbothermal Reduction Processing

  2. 以铁矿石尾矿和碳黑为原料,采用碳热还原法合成了SiC粉末。

    SiC powders were synthesized by carbothermal reduction from iron ore tailings and carbon black .

  3. 碳热还原法合成Si3N4的研究

    A Study of Synthesis of Si_3N_4 Powder by Carbothermal Reduction

  4. 以工业硅溶胶和炭黑为主要原料,用溶胶-凝胶和碳热还原法合成了SiC晶须。

    SiC whisker was synthesized with industry silicasol and carbon black by sol-gel method and carbothermal reduction reaction .

  5. 添加MgO对碳热还原法合成尖晶石型氮氧化铝粉末的影响

    Effect of addition of MgO on carbothermal reduction synthesis of aluminum oxynitride spinel powder

  6. 碳热还原法合成AlN纤维

    Synthesis of AlN Fibers by Carbothermic Reduction

  7. 利用工业级原料碳热还原法合成Li3V2(PO4)3工艺研究

    Li_3V_2 ( PO_4 ) _3 Synthesised by Carbon-Thermal Reduction Technical Study Use Commercial Grade Raw Material

  8. 用微米级SiO2、Si和碳黑混合粉末为原料,以氮气为反应气,采用碳热还原法合成了氮化硅纳米粉体。

    Si_3N_4 nanoparticles were synthesized by chemical vapor deposition ( CVD ) using Si , SiO_2 and C micro-particles as a raw material .

  9. 碳热还原法合成TiB2的热力学分析与研究

    Thermodynamics analysis of carbothermal reduction of TiB_2

  10. 碳热还原法合成ALON粉体的研究

    Synthesis of Aluminum Oxynitride Powder by Carbothermal Reduction Method

  11. 以LiF、V2O5和NH4H2PO4为原料,C为还原剂,采用碳热还原法两步合成了锂离子电池正极材料LiVPO4F。

    The cathode material LiVPO_4F was prepared by a two-step carbothermal reduction reaction of LiF , V_2O_5 and NH_4H_2PO_4 , with carbon as the reduction agent .

  12. 热力学分析表明:TiO2碳热还原法合成TiN、TiC粉末时,中间氧化物的稳定存在区域及反应开始温度与炉内温度、炉内的CO分压和N2分压相关。

    The thermodynamic analysis shows that the stability domains of intermediate oxide phase and products as well as the starting temperature of carbothermal reduction and nitridation reaction have relations to the temperature in the furnace , the partial pressure of nitrogen and monoxide carbon .

  13. 采用碳热还原法合成了Li3V2(PO4)3,研究了合成条件对Li3V2(PO4)3物理性能和电化学性能的影响,并对Li3V2(PO4)3的合成条件进行了优化。

    The effect of synthesis conditions on the physical performance and electrochemical behavior of Li3V2 ( PO4 ) 3 was studied and the synthesis conditions were optimized .

  14. 以LiCO3、V2O5、NH4H2PO4为原料,采用碳热还原法合成锂离子电池正极材料Li3V2(PO4)3(LVP)。

    Taking LiCO_3 、 V_2O_5 and NH_4H_2PO_4 as raw materials , the cathode material Li_3V_2 ( PO_4 ) _3 ( LVP ) was prepared by carbothermal reduction method .

  15. 对以不同原料制备Al2O3-SiC复相陶瓷材料的碳热还原法进行了比较,指出了这方面研究的不足之处和下一步研究的方向。

    The influences of raw materials on synthesizing of Al2O3-SiC composite materials are discussed , and the insufficiency of this research work and researching direction are also pointed out .

  16. 一体化晶须的生长过程异于传统晶须的生长过程,其生长机理符合晶体的扩散生长机制,而不同于传统碳热还原法中晶须的VS以及VLS机理等。

    The whiskers ' growth process in in-situ integration synthesis technology is different from the traditional technology ; its growth mechanism was in according with the crystal diffusion growth mechanism , which is different from the VLS , VS mechanism at the conventional carbon-thermal reduction process .

  17. 简要论述了Al2O3-SiC复相陶瓷材料的常用制备方法,如无压烧结法、热压烧结法、气压烧结法和溶胶-凝胶法等,重点介绍了碳热还原法。

    The preparation methods for Al2O3-SiC composite ceramics materials are reviewed , such as pressureless sintering , hot pressure sintering , gas pressure sintering and sol-gel method , etc. , and focusing on carbon thermal reduction method .

  18. 通过碳热还原法合成了正极材料LiVPO4F,利用XRD、SEM和充放电测试研究了球磨对LiVPO4F的合成和电化学性能的影响,结果表明:没有球磨的样品不能合成单相的LiVPO4F;

    The cathode material LiVPO_4F was prepared by carbon-thermal reduction method . The effects of ball milling on the synthesis and electrochemical performance of LiVPO_4F were studied by XRD , SEM and charge-discharge tests . The results showed that the single phase LiVPO_4F could not be prepared without ball milling .

  19. 碳热还原法磷酸铁锂的制备、结构与性能

    Preparation , Structure and Properties of LiFePO_4 by Carbothermal Reduction Method

  20. 用碳热还原法从含钒钢渣回收含钒生铁

    Recovery of V-bearing pig iron from steelmaking slags by carbon thermal reduction

  21. 真空碳热还原法无害化处理废弃阴极射线管锥玻璃的研究

    Detoxification of waste cathode ray tube funnel glass by vacuum-aided carbothermal reduction

  22. 不同铝源对碳热还原法合成氮化铝粉末的影响

    Effects of Various Aluminum Sources on AlN Powder Prepared by Carbon Thermal Reduction

  23. 碳热还原法合成氮化铝的机理与热力学条件

    Mechanisms and Thermodynamics Conditions of Carbothermal Reduction Nitridation Reactions

  24. 碳热还原法合成AIN晶须及其生长机理

    Fabrication process and growth mechanism of AIN whiskers by carbon thermal reduction method

  25. 碳热还原法合成AIN粉末的径向反应器设计

    Radical Reactor Design of Synthesizing AIN Powder by Carbothermal Reduction and Nitridation Method

  26. FePO4为原料碳热还原法合成LiFePO4/C工艺的优化

    Optimal synthesis techniques of LiFePO_4 / C composite prepared by carbothermal reduction using FePO_4 as raw material

  27. 冶金级的硅系合金是在矿热炉内将二氧化硅(硅石)用碳热还原法生产得到的。

    The metallurgical grade silicon alloys are produced by reduction of silicon dioxide in sub-arc furnace through carbothermal process .

  28. 利用碳热还原法,通过两步反应合成了LiVPO4F/C复合正极材料。

    The LiVPO4F / C was prepared by a two-step reactions based on a carbon thermal reduction ( CTR ) .

  29. 半固相碳热还原法是制备锂离子电池正极材料LiFePO4一种有潜力的合成方法。

    Consequently , the half solid state carbothermal reduction method is a promising synthetic process of LiFePO_4 cathode materials for lithium ion batteries .

  30. 通过液相沉淀法制得前驱体FePO4/C,然后通过改进的碳热还原法得到LiFePO4/C。

    The precursor ( FePO_4 / C ) was prepared by aqueous precipitation method . The LiFePO_4 / C was synthesized by modified carbothermal method .