A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials
碩士 === 高苑科技大學 === 高分子環保材料研究所 === 95 === Nano-structured materials have an area of intense research recently due to novel structure-related physical and chemistry properties as well as variety of significant potential applications. Although the intrinsic high-energy consumption and intensive hardware...
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ndltd-TW-095KYIT05660042016-05-25T04:14:21Z http://ndltd.ncl.edu.tw/handle/48317150155937725576 A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials 催化爆轟三硝基甲苯合成奈米材料之研究 K.P. Pan 潘國平 碩士 高苑科技大學 高分子環保材料研究所 95 Nano-structured materials have an area of intense research recently due to novel structure-related physical and chemistry properties as well as variety of significant potential applications. Although the intrinsic high-energy consumption and intensive hardware of these techniques are mainly responsible for the high cost. This research main use energy matter detonation has the huge energy to cause originally the material decomposition synthesis nono-matter. In the research uses TNT adds the catalyst(Co,Ni,EAcCo,FAcCo,Co3B) to carry on the catalyzed detonation response. Has not added under the catalyst in pure TNT to carry on the detonation obtained product for the irregular shape carbon-based non-material, but joins under Co and Ni catalyst of carries on the catalyzed detonation response obtained product for non-carbonball, also adds the Co to respond the obtained carnon-encapsulated metal. In joins in the cobaltous acetate resultant besides nano-carbonball, has tubular of matter the minority head harness metal. Adds response the formic acid nickel to be possible to obtain the particle size comparatively greatly to have the carbon-encapsulated. The Co3B obtained resultant shape not to be more irregular also to have the carbon-encapsulated.The compound catalyst after the detonation response, the catalyst returns to original state the simple substance metal. May obtain different particle size nano-carbonball in the change catalyst and the energy matter proportion. This research except has succeeded establishes the experimental level detonation catalytic reaction system, the affiliation may be upward (Bottom-up) adjustment by the response condition the original member by under to combine forms nano-structured matter, and may again use by way of this system the energy blasting explosive recycling. LIN,YUE-HUI 林岳輝 2007 學位論文 ; thesis 84 zh-TW |
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碩士 === 高苑科技大學 === 高分子環保材料研究所 === 95 === Nano-structured materials have an area of intense research recently due to novel structure-related physical and chemistry properties as well as variety of significant potential applications. Although the intrinsic high-energy consumption and intensive hardware of these techniques are mainly responsible for the high cost. This research main use energy matter detonation has the huge energy to cause originally the material decomposition synthesis nono-matter.
In the research uses TNT adds the catalyst(Co,Ni,EAcCo,FAcCo,Co3B) to carry on the catalyzed detonation response. Has not added under the catalyst in pure TNT to carry on the detonation obtained product for the irregular shape carbon-based non-material, but joins under Co and Ni catalyst of carries on the catalyzed detonation response obtained product for non-carbonball, also adds the Co to respond the obtained carnon-encapsulated metal. In joins in the cobaltous acetate resultant besides nano-carbonball, has tubular of matter the minority head harness metal. Adds response the formic acid nickel to be possible to obtain the particle size comparatively greatly to have the carbon-encapsulated. The Co3B obtained resultant shape not to be more irregular also to have the carbon-encapsulated.The compound catalyst after the detonation response, the catalyst returns to original state the simple substance metal. May obtain different particle size nano-carbonball in the change catalyst and the energy matter proportion.
This research except has succeeded establishes the experimental level detonation catalytic reaction system, the affiliation may be upward (Bottom-up) adjustment by the response condition the original member by under to combine forms nano-structured matter, and may again use by way of this system the energy blasting explosive recycling.
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LIN,YUE-HUI |
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LIN,YUE-HUI K.P. Pan 潘國平 |
author |
K.P. Pan 潘國平 |
spellingShingle |
K.P. Pan 潘國平 A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials |
author_sort |
K.P. Pan |
title |
A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials |
title_short |
A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials |
title_full |
A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials |
title_fullStr |
A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials |
title_full_unstemmed |
A Study of Catalytic Detonation ofTri-nitro-toluene Explosive to FormNano-materials |
title_sort |
study of catalytic detonation oftri-nitro-toluene explosive to formnano-materials |
publishDate |
2007 |
url |
http://ndltd.ncl.edu.tw/handle/48317150155937725576 |
work_keys_str_mv |
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