Effect of inner oxidant on self-propagating high-temperature synthesis of MnZn-ferrite powder 被引量：2

Effect of inner oxidant on self-propagating high-temperature synthesis of MnZn-ferrite powder

下载PDF

导出

摘要 Using KClO3 as an inner oxidant, MnZn-ferrite powder was synthesized by a self-propagating high-temperature synthesis (SHS) process in normal air atmosphere. The effects of the inner oxidant on combustion temperature, combustion velocity, microstructure and the phase of the product were investigated by XRD and SEM,respectively. The results show that a highly ferritized powder can be obtained as well as the highest combustion temperature and the highest combustion velocity when the inner oxidant content m equals 54(k-16). Using KClO3 as an inner oxidant, MnZn-ferrite powder was synthesized by a self-propagating high-temperature synthesis (SHS) process in normal air atmosphere. The effects of the inner oxidant on combustion temperature, combustion velocity, microstructure and the phase of the product were investigated by XRD and SEM,respectively. The results show that a highly ferritized powder can be obtained as well as the highest combustion temperature and the highest combustion velocity when the inner oxidant content m equals 54(k-16).

作者 AKHTAR Farid

机构地区 School of Materials Science and Engineering

出处《Rare Metals》 SCIE EI CAS CSCD 2006年第z1期553-556,共4页 稀有金属（英文版）

关键词 inner oxidant self-propagating high-temperature synthesis (SHS) MnZn-ferrite POWDER inner oxidant self-propagating high-temperature synthesis (SHS) MnZn-ferrite powder

分类号 TF125 [冶金工程—粉末冶金]

引文网络
相关文献

参考文献5

1陆明岳.MnZn铁氧体最新进展及其发展趋势[J].磁性材料及器件,2001,32(5):27-33. 被引量：17
2姜久兴,李垚,赫晓东,曲伟,李晓.MnZn铁氧体粉体的燃烧合成[J].哈尔滨工业大学学报,2004,36(1):11-15. 被引量：7
3姜久兴,李垚,赫晓东,曲伟.ZnFe_2O_4粉体的燃烧合成[J].硅酸盐学报,2003,31(3):235-240. 被引量：18
4李垚,赵九蓬,韩杰才,杜善义.自蔓延高温合成Ni_(0.35)Zn_(0.65)Fe_2O_4粉体的研究[J].硅酸盐学报,2000,28(5):427-431. 被引量：26
5姜久兴,李垚,赫晓东,曲伟.MnFe_2O_4粉体的燃烧合成[J].粉末冶金技术,2003,21(5):264-269. 被引量：11

二级参考文献31

1GUAITA F J, BELTRAN H, CORDONCILLO E, et al. Influence of the precursors on the formation and the properties of ZnFe2O4[J]. J Eur Ceram Soc, 1999, 19: 363-372.
2AVAKYAN P B, NERSISYAN E L, NERSESYAN M D, et al. Self-propagating high-temperature synthesis of manganesezinc ferrite[J]. Int J Self-Propagat High-Temp Synth, 1995, 4(1) : 79-83.
3AVAKYAN p B, NERSISYAN E A, AANDREEV V G, et al. Influence of powder particle size on formation of microstructure and properties of manganese-zinc ferrites[J]. Int J Self-Propagat High-Temp Synth, 1995, 4(3) : 287-292.
4AVAKYAN p B, NERSISYAN E L, NERSESYAN M D, et al. Properties of manganese - zinc ferrite under the condition of thermal treatment. Int J Self-Propagat High-Temp Synth,1996, 5(3): 241-247.
5AVAKYAN p B. Efficient continuous SHS-technology for production of ferrite materials [J ]. Int J Self-Propagat High-Temp Synth, 2000, 9(1): 75-84.
6STEINBERG T A, KURTZ J, WILSON D B, The solubility of oxygen in liquid iron oxide during the combustion of iron rods in high-pressure oxygen[J]. Combust Flame, 1998, 113: 27-37.
7MURIN I V, SMIRNOV V M, VORONKOV G P, et al. Structural- chemical transformations of a - Fe2O3 upon transport reduction [J]. Solid State Ionics, 1999, 117: 95-103.
8Steinberg T A, Kurtz J, Wilson D B, The solubility of oxygen in liquid iron oxide during the combustion of iron rods in high - pressure oxygen [ J ]. Combustion and Flame, 1998, 113:27 -37.
9Bonsdorf G, Schafer K, Teske K, et al. Stability region and oxygen stoichiometry of manganese ferrite[ J ]. Solid State Ionics, 1998, 110:73 -82.
10Michalk C. Moessbauer study of MnZn ferrite formation under low oxygen pressure conditions[ J ]. J Magn Magn Mat 1987, 68: 157-159.

共引文献56

1HAO Shunli WANG Xin WEI Yu Wang Yongming Liu Chunjing.Preparation and properties of nanosize MnZn ferrite from δ-FeOOH[J].Rare Metals,2006,25(z1):466-470.
2Hong-Fei Lou,Jian-Jiang Wang,Zhi-Ning Zhao,Xu-Dong Cai,Yong-Shen Hou.Preparation of micro-nano hollow multiphase ceramic microspheres containing MnFe_2O_4 absorbent by self-reactive quenching method[J].Rare Metals,2013,32(6):592-598.
3曾明锋,王为民,傅正义.自蔓延高温合成软磁Ni-Zn铁氧体的研究[J].武汉理工大学学报,2004,26(9):4-6. 被引量：3
4姜久兴,李垚,赫晓东,曲伟.多种添加物联合作用对Mn-Zn铁氧体性能的影响[J].硅酸盐学报,2004,32(6):747-750. 被引量：3
5重视中国市场,扩大在华生产[J].现代电视技术,2002(9):129-129.
6岳丽华,李垚,韩杰才,赫晓东,姜久兴,李晓.自蔓延高温合成镍铜锌铁氧体粉体研究[J].哈尔滨工业大学学报,2005,37(4):437-439. 被引量：3
7田庆华,黄凯,郭学益.纳米铁酸锌的制备研究[J].矿冶工程,2005,25(2):46-48. 被引量：10
8陆胜,刘仲娥.ZnFe_2O_4纳米微粉低温制备及其电磁特性[J].硅酸盐学报,2005,33(6):665-668. 被引量：23
9张保平,张金龙,唐谟堂,杨声海.共沉法制备锰锌软磁铁氧体前躯体的热力学分析[J].江西有色金属,2005,19(2):35-37. 被引量：5
10傅小明,钟云波,任忠鸣,邓康,徐匡迪.弱磁场下低温中和法制备纳米MnOOH的研究[J].稀有金属材料与工程,2006,35(A02):351-354. 被引量：2

同被引文献19

1翁兴园.中国软磁铁氧体产业发展面临的风险和挑战[J].新材料产业,2007(7):45-47. 被引量：2
2Avakyan P B. Efficient continuous SHS-technology for production of ferrite materials[J]. Int J Self-Propagating HighTemperature Synthesis, 2000, 9 (1) : 75.
3Merzhanov A G. Solid flames: Discoveries, concepts, and horizons of cognition[J]. Combust Sci Techn, 1994,98 : 307.
4Arvind Varma, Alexander S Rogachev, Alexander S Mukasyan,et al. Complex behavior of self-propagating reaction waves in heterogeneous media[J]. Proc National Acad Sci, 1998,95:11053.
5Curls C, Gano I G, Vaughan G B M, et al. Intermetallicceramic composites synthesis by SHS time-resolved studies using synchrotron radiation X-rays[J]. Int J Self-Propagating High-Temperature Synthesis, 2000,9 :331.
6Rashkovsky S A. Numerical simulation of heterogeneous structure, thermal properties and combustion of solid mixtures[C]//29th Meeting on Combustion. Moscow, 2006.
7Anatoly A Borissov, De L Luca, Aleksandr Grigor, et al. Self-propagating high-temperature synthesis of materials[M]. US: Taylor & Francis,2002: 132.
8Oliveria A A M, Kaviary M. None equilibrium in the transport of heat and reactants in combustion in progress media [J]. Progress Energy Combustion Sci, 2001,27 : 523.
9Cao G, Orru R, Licheri R, et al. SHS in Italy; An overview [J]. Int J Self-Propagating High-Temperature Synthesis, 2008,17:76.
10John J Moore, Feng H J. Combustion synthesis of advanced materials Part Ⅰ. Reaction parameters[J]. Progress Mater Sci, 1995,39 : 243.

引证文献2

1WANG Keqiang HE Xiaodong LI Xiao JIANG Jiuxing SUN Yue.Influences of NiCO_3 content on the microstructure and magnetic properties of Ni_(0.5)Zn_(0.5)Fe_2O_4 powders prepared by SHS[J].Rare Metals,2009,28(5):500-503. 被引量：2
2孟祥东.自蔓延高温合成软磁铁氧体粉的研究进展[J].材料导报,2009,23(21):46-49. 被引量：1

二级引证文献3

1卢文华,李定国,王建中,熊杰,陈聪.液相法制备锰锌铁氧体粉体的研究进展[J].四川兵工学报,2011,32(11):96-100. 被引量：2
2王振华,姜久兴,谭昌龙,朱智涵.以C为自蔓延高温合成燃料制备高磁导率NiCuZn铁氧体[J].硅酸盐学报,2012,40(6):888-893. 被引量：1
3王振华,姜久兴,朱智涵,马琳琳.自蔓延高温反应合成NiCuZn铁氧体粉料的研究[J].哈尔滨理工大学学报,2012,17(4):101-105. 被引量：3

1Guan Q L Wang H Y Li S L Si W P Jiang Q C.Influence of Fe Addition on Products of Self-Propagating High-Temperature Synthesis Reaction in 3Ti-Si-2C System[J].稀有金属材料与工程,2009,38(A03):113-118. 被引量：2
2梁根,石琛,周亚军,毛大恒,肖常安.超声波熔体处理对铸造35CrMo钢铸锭显微疏松的影响[J].铸造,2016,65(9):886-889.
3丁雨田,郭兵,胡勇,纪国庆,柴利强.医用Mg-Zn-Ca-Mn合金在PBS模拟体液中的腐蚀行为[J].材料导报,2012,26(6):1-6. 被引量：6
4C.L.Chu,G.J.Shen,S.D.Wang,B.Li,S.G.Zhang,Z.D.Yin.THE ACCURATE MOLECULAR FORMULA OF "Ti_(11)Ni_(14)"　PHASE[J].Acta Metallurgica Sinica(English Letters),1998,11(1):56-60.
5F. GESMUNDO,S. WANG,Y. NIU.Complete Maps for the Internal Oxidation of Ideal Ternary Alloys Forming Insoluble Oxides under High Oxidant Pressures[J].中国腐蚀与防护学报,2009,29(4):253-261.
6TianzhuGao,JiuqingLi.Influence of oxidant KMnO_4 on film-forming process of rare earth metal conversion coating on LY12 aluminum alloy[J].Journal of University of Science and Technology Beijing,2002,9(3):216-220. 被引量：1
7王小翠,喇培清,李贤明,欧玉静,魏玉鹏,孟倩.NaCl和KClO_3含量对盐助燃烧合成的NiTi粉体组成和结构的影响[J].当代化工,2015,44(9):2061-2065. 被引量：1
8Dasheev Dorzho E. Smimyagina Natalia N..Features of the Process of Self-Propagating High-Temperature Synthesis, a Structure and Strong Properties of Borides Iron Layers on the Carbon Steels, Generated Under a Powerful Electron Beam in Vacuum[J].Journal of Chemistry and Chemical Engineering,2013,7(4):319-325.
9Japan developed a non-combustible magnesium alloy[J].China Foundry,2016,13(2):147-147.
10缪曙霞,殷声,李建勇,赖和怡.Synthesis of TiC by Self-propagating High-temperature Synthesis with Reduction Stage[J].Rare Metals,1993,12(2):137-141.

Rare Metals

2006年第z1期

浏览历史

内容加载中请稍等...