溶液燃烧合成,solution combustion synthesis
1)solution combustion synthesis溶液燃烧合成
1.Spinel LiMn2O4 powders were prepared bysolution combustion synthesis using MnAc2 and LiAc as raw materials,and glucose as fuel.以醋酸锂和醋酸锰为原料,葡萄糖为燃料,研究和分析了在550℃溶液燃烧合成尖晶石型LiMn2O4物质的过程、葡萄糖用量对合成LiMn2O4物质的影响,并从热力学的角度探讨了其过程。
英文短句/例句
1.Effect of PEG on solution combustion synthesis of superfine ZrO_2 powdersPEG对溶液燃烧合成超细ZrO_2粉末的影响
2.Influence of Ignition Temperature on Morphology and Luminescent Properties of Nano BAM Blue Phosphor点燃温度对溶液燃烧合成BAM形貌和发光性能的影响
3.SOL-GEL COMBUSTION SYNTHESIS OFCr~(3+):Al_2O_3 NANOMETER POWDERS溶胶-凝胶燃烧法合成Cr~(3+):Al_2O_3纳米粉体
4.Synthesis of nano-size zinc oxide by sol-gel combustion process纳米氧化锌的溶胶—凝胶/燃烧合成结合法制备
5.Characterization of Ce_(1-x)Pr_xO_2 Solid Solution Prepared by Low-Temperature Combustion SynthesisCe_(1-x)Pr_xO_2固溶体的低温燃烧合成及表征
6.Self-propagating Combustion Synthesis of Nanocrystalline Yttrium Iron Oxide Solid Solution Photocatalysts自生长燃烧法合成纳米铁酸钇固溶体光催化剂
7.Synthesis and Characterization of SmBO_3 by Sol-Gel Combustion Method溶胶-凝胶燃烧合成法制备SmBO_3粉体及其性能研究
8.any of various volatile flammable liquid hydrocarbon mixtures; used chiefly as solvents.各种易挥发、易燃烧的液态烃类混合物,主要用作溶剂。
9.Enhancing the photocatalytic activity of LaCoO_3 by salt-assisted combustion synthesis盐助溶液燃烧法提高LaCoO_3的光催化活性
10.Preparation and Performance Research of Catalysts for Combustion of Natural Gas Mediated by Inverse Micro-emulsion;天然气燃烧催化剂的逆微乳液合成及性能研究
11.Effect of Calcination Temperatures on Spinel LiMn_2O_4 Prepared by Solution Combustion Synthesis in Nitrate System;温度对硝酸盐体系液相燃烧合成产物LiMn_2O_4的影响
12.Solution Combustion Synthesis of LiMn_2O_4 Powder and Determination of Manganese Average Valence State in LiMn_2O_4;液相燃烧合成LiMn_2O_4及其Mn平均价态的测定
13.The Research on Synthesis of Nanocrystalline Ce_(1-x)Nd_xO_(2-x/2) Powders by a Low Temperature Combustion Process;Ce_(1-x)Nd_xO_(2-x/2)固溶体纳米粉体的低温燃烧合成研究
14.One-step Synthesis of Barium Hexaferrite Nanocrystals via Microwave-assisted Sol-Gel Auto-combustion and their Magnetic Properties微波辅助溶胶凝胶自燃烧一步合成六角铁酸钡纳米晶及其磁性能
15.Investigation of Combustion Instability in Syngas Combustor of Gas Turbine;燃气轮机合成气燃烧室燃烧稳定性的实验研究
16.The Fabrication of Ti_3AlC_2 Ceramic Material by Self-propagating High Temperature Reaction Synthesis;Ti_3AlC_2陶瓷材料的燃烧合成
17.a colorless flammable liquid alkane derived from petroleum and used as a solvent.一种无色、易燃烧的液体,从石油中提取,用作溶剂。
18.Preparation of Doped Hexaaluminate Catalyts by Reverse Microemulsion and Investigation of Its Catalytic Performance;逆微乳液合成掺杂六铝酸盐催化剂及其催化燃烧性能研究
相关短句/例句
solution combustion synthesis液相燃烧合成
1.Spinel LiMn2O4 powders were prepared bysolution combustion synthesis using LiNO3,Mn(NO3)2 or LiAc and Mn(Ac)2 as raw materials and urea or citric acid as fuel.以硝酸锂(锰)、醋酸锂(锰)、尿素和柠檬酸为原料,利用液相燃烧合成方法研究了两种不同酸根盐体系以及燃料尿素用量和柠檬酸对燃烧合成尖晶石型LiMn2O4的影响,并用氧化还原滴定法测定产物中Mn的平均化合价作为合成产物为LiMn2O4的辅证依据。
2.Spinel LiMn2O4 powders were prepared bysolution combustion synthesis using nitrate lithium and manganese as raw materials,and urea as fuel.以硝酸锂和硝酸锰为原料,尿素为燃料,用液相燃烧合成方法制备尖晶石型LiMn2O4物质,考察了焙烧温度(300-800℃)和焙烧时间(0-48h)对产物的组成结构和晶粒大小的影响。
3)liquid combustion synthesis液相燃烧合成
1.Spinel LiMn2O4 and Li4Mn5O12 were synthesized byliquid combustion synthesis using urea as fuel and lithium nitrate (manganese nitrate) and lithium acetate (manganese acetate) as raw materials, respectively.以硝酸锂(锰)、醋酸锂(锰)为原料,尿素为燃料,利用液相燃烧合成方法研究了尖晶石型 LiMn2O4和Li4Mn5O12的合成。
2.Spinel LiMn2O4 was prepared byliquid combustion synthesis using urea as fuel, and lithium acetate and manganese acetate as raw materials.以锂、锰的醋酸盐为原料,尿素为燃料,使用液相燃烧合成法制备了尖晶石型LiMn2O4,研究了不同尿素含量和不同起燃温度对所制备尖晶石结构的影响。
4)solution combustion synthesis溶液燃烧法
1.2CoO_3 oxides were prepared by D,L-alaninesolution combustion synthesis and used successfully in methane combustion as catalysts.以D,L-丙氨酸为有机燃料,采用溶液燃烧法制备了钙钛矿型复合氧化物La0。
5)solution combustion溶液燃烧法
1.The CaIn_2O_4 is synthesized with different kinds of fuel using asolution combustion method.选用不同的有机燃料,通过溶液燃烧法来摸索CaIn_2O_4的合成条件。
6)sol-gel and combustion method溶胶-凝胶燃烧法合成
延伸阅读
燃烧合成技术分子式:CAS号:性质:又称燃烧合成技术。依靠化学反应自身放热来制备材料的新技术。即外加能源(电热或激光等)触发点火剂燃烧,进而引发反应物料(气相-固相,固相-固相、液相-固相等)自发高速反应、放出热量,反应由局部以燃烧波的形式自动蔓延整个体系,最后获得新的合成材料的技术。反应物可以是元素粉末相互直接混合或元素粉末与气体,也可用金属氧化物和还原剂及非金属粉末的混合物反应生成热能维持反应持续进行。反应产物必须是稳定的化合物。该技术具有产物纯度高、设备简单、能耗低、生产灵活等优点,缺点是工艺参数控制要求较严。已用此法制备出数百种化合物,像各种金属的氮化物、碳化物、硼化物、硅化物、氧化物、氢化物等。SHS技术已发展成SHS制粉技术、SHS烧结技术、SHS致密化技术、SHS熔铸技术、SHS焊接技术、SHS涂层技术等。