爆轰法合成纳米材料研究进展

稀有金属材料与工程, 2007, 36(12): 2069-2074.

爆轰法合成纳米材料研究进展

李晓杰 ^1, , 曲艳东 ^2, , 闫鸿浩 ^3, , 王小红 ^4,

1.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

2.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

3.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

4.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

基金项目: 国家自然科学基金(10172025;10602013;1057034) 辽宁省自然科学基金(2001101075;20042161)

关键词：纳米材料 , 爆轰法,相变 , 发展

Research Progress on Nanosized Materials Synthesized by Detonation Method

Li Xiaojie ^1, , Qu Yandong ^2, , Yan Honghao ^3, , Wang Xiaohong ^4,

1.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

2.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

3.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

4.大连理工大学,工业装备与结构分析国家重点实验室,辽宁大连,116023

Keywords： nanosized materials , detonation method , phase transition

爆轰法是一种新颖的制备纳米材料的方法.近几十年来,许多研究工作者利用爆轰法在高温高压条件下制备出了金刚石,石墨,氮化硼等纳米材料.本文主要回顾了目前爆轰制备纳米材料的发展现状和研究进展,特别是综述了纳米氧化物(如氧化铝,氧化钛,氧化锌)以及复合氧化物(如铝酸锶,锰酸锂)的制备过程,以及爆轰合成纳米材料的机理,提出了今后进一步研究的一些建议.

As a novel method,detonation method has been used to prepare many kinds of nanosized materials,such as diamond,graphite and boron nitride in the last several decades.This article mainly reviewed the development of synthesizing nanosized materials via detonation method,and especially summarized the synthesis processes of nanosized metal-oxide,such as Al2O3,TiO2,ZnO and nanocomposites such as SrAl2O4,Li1+xMn2O4.The synthesis mechanism,some suggestions and the in-depth research on applications of detonation method are also presented.

参考文献

[1]	高濂.纳米氧化钛光催化材料及应用[M].北京:化学工业出版社,2002:2.
[2]	Li X J et al.[J].Materials Letters,2006,60(29-30):3673.
[3]	翟秀静,符岩,暴永生,刘忠文.燃烧合成技术制备α-Al2O3纳米粉[J].东北大学学报(自然科学版),2002(09):851-853.
[4]	Jung Hyeun Kim et al.[J].Journal of Materials Research,2003,18(07):1614.
[5]	Maston D W .[J].Journal of the American Ceramic Society,1989,72(06):871.
[6]	Blazynski T Z.Explosive Welding,Forming and Compaction[M].London:Applied Science Publishers Ltd,1983:2.
[7]	Graham R A et al.[J].Ann Rev Mater,1986,16:315.
[8]	Staver A M et al.[J].Fizika Goreniya I Vzryva,1984,20(05):100.
[9]	Greiner N R et al.[J].Nature,1988,333(02):440.
[10]	Greiner N R;Hermes R.[A].Portland Oregon USA,1989:1170.
[11]	邵丙璜 et al.[J].爆炸与冲击,1986,3(06):198.
[12]	徐康,金增寿,魏发学,江天籁.炸药爆炸法制备超细金刚石粉末[J].含能材料,1993(03):19.
[13]	Kuznetsov V L et al.[J].CARBON,1991,29(4-5):665.
[14]	Horie Y et al.[J].Materials Letters,1985,3(9-10):354.
[15]	Beloshapk A G;Bukaemskii A A;Staver A M .[J].Combustion Explosion and Shock Waves,1990,26(04):457.
[16]	Aizawa T et al.[J].Intermetallics,1995,3(05):369.
[17]	Liu J J et al.[J].Materials Research Bulletin,1996,31(09):1049.
[18]	廖其龙,杨世源,蔡灵仓,周大利,尹光福,郑昌琼.用冲击波合成法制备羟基磷灰石粉体[J].高压物理学报,2002(04):249-253.
[19]	Bukaemskii A A;Beloshao A G .[J].Combustion Explosion and Shock Waves,2002,37(05):594.
[20]	Bukaemskii A A;Avramenko S S;Tarasova L S .[J].Combustion Explosion and Shock Waves,2002,38(04):478.
[21]	Bukaemskii A A .[J].Combustion Explosion and Shock Waves,2002,38(03):360.
[22]	Tsvigunov A N;Frolova L A;Khotin V G .[J].Glass and Ceramics,2003,60(9-10):347.
[23]	Lu Y;Zhu Z P;Liu Z Y .[J].CARBON,2004,42(02):361.
[24]	文潮,金志浩,关锦清,李迅,周刚,林俊德.炸药爆轰法制备纳米石墨粉[J].稀有金属材料与工程,2004(06):628-631.
[25]	杨世源,金孝刚,李菊芬,王军霞.利用冲击波技术制备TiO2纳米晶[J].材料研究学报,2005(02):189-192.
[26]	Decarli P S;Jamieson J C .[J].Science,1961,133(16):1821.
[27]	吴元康.[J].爆破器材,1986(01):9.
[28]	Stayer A M;Gubareva N V;Lyamkin A I et al.[J].Combustion Explosion and Shock Waves,1984,20(05):567.
[29]	Sakovich G V;Gubarevich V D;Badaev F Z et al.[J].Dok Akad Nauk SSSR,1990,310(02):402.
[30]	Chen P.W. .Spherical nanometer-sized diamond obtained from detonation[J].Diamond and Related Materials,2000(9-10Sep/Oct):1722-1725.
[31]	Iakoubovskii K;Baidakova M V;Wouters B H et al.[J].Diamond and Related Materials,2000,9(3-6):861.
[32]	陈全 et al.[J].材料研究学报,1999,13(03):317.
[33]	李晓杰 .超硬材料的爆炸合成机理与实验技术研究[D].中国科学技术大学,1998.
[34]	Mironov E;Koretz A;Petrov E .[J].Diamond and Related Materials,2002,11(3-6):872.
[35]	Vereschagin A L;Sakovich G V;Komarov V F et al.[J].Diamond and Related Materials,1993,3:160.
[36]	Anisichkin V F;Derendyaev B G;Mal'kov I Yu .[J].Combustion Explosion and Shock Waves,1989,25(03):372.
[37]	Titov V M;Anisichkin V F;Mal'kov I Y .[J].Combustion Explosion and Shock Waves,1989,25(03):372.
[38]	Greiner N R et al.[J].Nature,1988,333(02):440.
[39]	Wheeler E J;Lewis D .[J].Materials Research Bulletin,1975,10:687.
[40]	牟瑛琳 et al.[J].爆炸与冲击,1993,13(03):205.
[41]	李瑞勇 .纳米氧化铝的爆轰合成及其晶型和尺寸的控制研究[D].大连理工大学,2006.
[42]	Xie X H et al.[J].Materials Letters,2006,60(25-26):3149.
[43]	李晓杰,陈涛,徐兆龙,李瑞勇,曲艳东,王占磊.爆轰法制备纳米TiO2及其参数控制[J].高压物理学报,2006(02):122-126.
[44]	曲艳东,李晓杰,张越举,孙贵磊,王小红.硫酸亚钛爆轰制备纳米TiO2粒子[J].功能材料,2006(11):1838-1840,1847.
[45]	Liu J J et al.[J].Materials Research Bulletin,2001,36(13-14):2357.
[46]	Xie XH;Li XJ;Zhao Z;Wu HB;Qu YD;Huang WY .Growth and morphology of nanometer LiMn2O4 powder[J].Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems,2006(3):143-146.
[47]	李晓杰,曲艳东,李瑞勇,谢兴华,陈涛,王占磊,史兴治.爆轰法合成铝酸锶铕长余辉发光材料的研究[J].功能材料,2006(02):182-184.
[48]	Urizar M J et al.[J].Physics of Fluids,1961,4(02):262.
[49]	Mader C L;Craig B G .Los Alamos Scientific Laboratory Report[LAURL-5865][R].,1975.
[50]	Ree F H;Thiel M V.[A].北京,1987:622.
[51]	Jhonson J D.[A].Portland Oregon USA,1989:417.
[52]	Shaw M S et al.[J].Journal of Applied Physics,1987,62(05):2080.
[53]	Staver A M et al.[J].Fizika Goreniya I Vzryva,1989,20(03):79.
[54]	Titov V M;Anisichkin V F;Mal'kov I Y.[A].Portland Oregon USA,1989:407.
[55]	Babare L V et al.[J].Fizika Goreniya I Vzryva,1969,5(04):528.
[56]	Yamada K;Sawaoka A B .[J].CARBON,1994,32(04):665.
[57]	陈权 .炸药爆轰合成超微金刚石的理论及应用问题研究[D].北京理工大学,1998.
[58]	Anisichkin V F;Derndyaev B J;Koptyug V A et al.[J].Fizika Goreniya I Vzryva,1988,24(03):121.
[59]	Shaw M S;Johnson J D .[J].Journal of Applied Physics,1987,62(05):2080.
[60]	Gustafson P .[J].Carbon,1986,24(02):169.

上一张下一张

计量

下载量()
访问量()

作者相关

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网