气凝胶应用领域研究进展
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- 论文作者:王振宇 ; 王世伟 ; 郑权 ; 李敬
- 年:2016
- 作者机构:天津摩根坤德高新科技发展有限公司;
- 论文关键词:二氧化硅 ; 气凝胶 ; 应用 ; 前景
- 会议召开时间:2016-12-11
- 会议录名称:创新提升 绿色发展——全国绝热节能材料行业创新与发展论坛论文集
- 语种:中文
- 分类号:TQ427.26
- 学会代码:JRGY
- 会议名称:全国绝热节能材料行业创新与发展论坛
- 会议地点:中国江苏苏州
- 主办单位:中国绝热节能材料协会
- 学会名称:中国绝热节能材料协会
- 页数:6
- 文件大小:345k
- 原文格式:O
- 会议级别:全国
摘要
气凝胶是一种纳米微孔材料,由于其特殊的多孔结构,从问世以来引起了人们的重视,经过几十年的研究和发展,其应用领域不断扩大,本文主要论述气凝胶应用情况,介绍起在隔热保温,防震减爆,化学催化,生物医药以及含能材料等方面的应用。并分析其应用前景。
引文
[1]沈军,王际超,倪星元等.以水玻璃为源常压制备高保温二氧化硅气凝胶[J].功能材料.2009,40(1):149.
[2]沈军,周斌,吴光明等.纳米孔超级绝热材料气凝胶的制备与热学特性[J].过程工程学报,2002,2(4):341.
[3]王芳,李瑞菲,逄艳等.工业水玻璃制备疏水性SiO_2气凝胶[J].材料导报,2011,25(3):107-111.
[4]殷吉超,彭晓峰,朴英.隔热材料的纳米成型与性能分析[J].工程热物理学报,2007,28(5):832-834.
[5]杨海龙,倪文,孙陈诚等.硅酸钙复合纳米孔超级绝热板材的研制[J].宇航材料工艺,2006,36(2):18-22.
[6]杨海龙,倪文,梁涛等.硅酸铝纤维增强纳米孔绝热材料的制备与表征[J].材料工程2007,7:63-66.
[7]Debye,P.,Vortrage uber die Kinetische Theorie der Materie und der Elektrizitat.1914,Berlin:B.G.Teubner.
[8]Lu,X.,Transport Properties of Porous Media,PhD thesis,University of Wurzburg,Germany,1991.
[9]Scheuerpflug,P.,Morper,H.J.,Neubert,G.and Fricke,J.,Low-Temperature Thermal Transport in Silica Aerogels.Journal of Physics D-Applied Physics,1991.24(8):p.1395-1403.
[10]谢文丁.绝热材料与绝热工程[M].北京,国防工业出版社,2006:10-18
[11]张伟娜.疏水性二氧化硅气凝胶的常压制备及其性能表征[D].长春:长春理工大学,2005
[12]杨杰.二氧化硅气凝胶的防爆震性能及机理研究[J]物理学报2010 59(12):8934-8940.
[13]Parmenter KE,Milstein F(1998)Mechanucal properties of silica aerogels.J Non-Cryst Solids 223:179-189
[14]Kistler SS.Coherent expanded aerogel jellies[J].Nature,1931,227:741
[15]陈龙武,甘礼华气凝胶[J].化学通报1997,(8):21-271
[16]Jin-HongKin,Dong Jin Suh,Tae-Jin Park,et al.Effect of metal particle size on coking during CO2 reforming of CH4 over Ni/Al2O3 aerogel catalysts[J].Appl Catal,2000,197:191-2001.
[17]G M Pajonk.Catalytic aerogels[J].Catal Today,1997,(35):319-3371.
[18]D Bianchi,TChaf ik,M Khalfallah,S J Teichner.Intermediate species on zirconia supported methanol aerogels(v):adsorption of methanol[J].Appl Catal,1995,123(1):89-1101.
[19]Muller.C.A.,Maciejewski M.,MallatT.etal.J.Catal.,1999,184:280-293.
[20]ChiaraP.,LilianaO.,MichelaS.Etal.J.Catal.2000,14:286-293.
[21]Toledo-Fernandez JA,Mendoza-Serna R,Morales V,de la Rosa-Fox N,Pinero M,Santos A and Esquivias L(2008)Bioactivity of wollastonite/aerogels composites obtained from a TEOS-MTES matrix.J Mater Sci Mater Medl9:207-277.
[22]Yin W.Venkitachalm SM,Jarrette E,Staggs S,Leventis N,Lu H and Rubenstein DA(2010)Biocompatibility of surfactant-templated.Polyuria-nanoencapsulated macroporous silicate aerogels with plasma platelets and endothelial cells.J Biomed Mater Res A92A:1431-1439.
[23]Tillotson TM,Gash AE,Simpson RL,Hrubesh LW,Satcher JH,Poco JF(2001)Nanostructured energetic materials using sol-gel methodologies.J Non-Cryst Solids 285:1821-1825.
[24]Cudzilo S,Trzcinski WA,Kicinski W(2009)Detonation parameters of resorcinol-formaldehyde/ammonium chlorate(VH)nanocomposites.Proceedings of the 40th International Annual Conference of the ICT Karlshrule,Germany.
[2]沈军,周斌,吴光明等.纳米孔超级绝热材料气凝胶的制备与热学特性[J].过程工程学报,2002,2(4):341.
[3]王芳,李瑞菲,逄艳等.工业水玻璃制备疏水性SiO_2气凝胶[J].材料导报,2011,25(3):107-111.
[4]殷吉超,彭晓峰,朴英.隔热材料的纳米成型与性能分析[J].工程热物理学报,2007,28(5):832-834.
[5]杨海龙,倪文,孙陈诚等.硅酸钙复合纳米孔超级绝热板材的研制[J].宇航材料工艺,2006,36(2):18-22.
[6]杨海龙,倪文,梁涛等.硅酸铝纤维增强纳米孔绝热材料的制备与表征[J].材料工程2007,7:63-66.
[7]Debye,P.,Vortrage uber die Kinetische Theorie der Materie und der Elektrizitat.1914,Berlin:B.G.Teubner.
[8]Lu,X.,Transport Properties of Porous Media,PhD thesis,University of Wurzburg,Germany,1991.
[9]Scheuerpflug,P.,Morper,H.J.,Neubert,G.and Fricke,J.,Low-Temperature Thermal Transport in Silica Aerogels.Journal of Physics D-Applied Physics,1991.24(8):p.1395-1403.
[10]谢文丁.绝热材料与绝热工程[M].北京,国防工业出版社,2006:10-18
[11]张伟娜.疏水性二氧化硅气凝胶的常压制备及其性能表征[D].长春:长春理工大学,2005
[12]杨杰.二氧化硅气凝胶的防爆震性能及机理研究[J]物理学报2010 59(12):8934-8940.
[13]Parmenter KE,Milstein F(1998)Mechanucal properties of silica aerogels.J Non-Cryst Solids 223:179-189
[14]Kistler SS.Coherent expanded aerogel jellies[J].Nature,1931,227:741
[15]陈龙武,甘礼华气凝胶[J].化学通报1997,(8):21-271
[16]Jin-HongKin,Dong Jin Suh,Tae-Jin Park,et al.Effect of metal particle size on coking during CO2 reforming of CH4 over Ni/Al2O3 aerogel catalysts[J].Appl Catal,2000,197:191-2001.
[17]G M Pajonk.Catalytic aerogels[J].Catal Today,1997,(35):319-3371.
[18]D Bianchi,TChaf ik,M Khalfallah,S J Teichner.Intermediate species on zirconia supported methanol aerogels(v):adsorption of methanol[J].Appl Catal,1995,123(1):89-1101.
[19]Muller.C.A.,Maciejewski M.,MallatT.etal.J.Catal.,1999,184:280-293.
[20]ChiaraP.,LilianaO.,MichelaS.Etal.J.Catal.2000,14:286-293.
[21]Toledo-Fernandez JA,Mendoza-Serna R,Morales V,de la Rosa-Fox N,Pinero M,Santos A and Esquivias L(2008)Bioactivity of wollastonite/aerogels composites obtained from a TEOS-MTES matrix.J Mater Sci Mater Medl9:207-277.
[22]Yin W.Venkitachalm SM,Jarrette E,Staggs S,Leventis N,Lu H and Rubenstein DA(2010)Biocompatibility of surfactant-templated.Polyuria-nanoencapsulated macroporous silicate aerogels with plasma platelets and endothelial cells.J Biomed Mater Res A92A:1431-1439.
[23]Tillotson TM,Gash AE,Simpson RL,Hrubesh LW,Satcher JH,Poco JF(2001)Nanostructured energetic materials using sol-gel methodologies.J Non-Cryst Solids 285:1821-1825.
[24]Cudzilo S,Trzcinski WA,Kicinski W(2009)Detonation parameters of resorcinol-formaldehyde/ammonium chlorate(VH)nanocomposites.Proceedings of the 40th International Annual Conference of the ICT Karlshrule,Germany.
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