DETONATION OF TRI-NITRO-TOULENE INTO CARBON-COATED NANOCAPSULES
Published In: 3RD INTERNATIONAL CONFERENCE ON ADVANCES IN APPLIED SCIENCE AND ENVIRONMENTAL TECHNOLOGY
Author(s): MING-ZEN CHANG , YEUH-HUI LIN
Abstract: Nano-structured materials have been synthesized by a self-heating detonation process using a TNT (Tri-nitro-toulene) explosive for providing the need of high temperatures, high shock waves, and parts of carbon sources such as wax in the presence of Ti-containing catalysts. The products of carbon nanoparticles, nanotubes and nano-size catalyst powders are characterized by XRD, SEM, EDX and TEM techniques. This research presents the use of this specially system to study the catalytic detonation process, the relationship between the experimental conditions and product distribution and roles of the catalyst types. The metal compounds are converted into metallic nanoparticles due to the fast decomposition and a reduction reaction after the detonation, which play an important role for the growth of different size of carbon capsules. Moreover, the results experimentally used in this study show that it is possible for a cheaper process and can be as an alternatives compared to these high energ
- Publication Date: 29-Dec-2015
- DOI: 10.15224/978-1-63248-084-2-69
- Views: 0
- Downloads: 0
SYNTHESIS OF NANOPARTICLES BY METALLIC CATALYZED-BLAST TECHNOLOGY
Published In: 3RD INTERNATIONAL CONFERENCE ON ADVANCES IN APPLIED SCIENCE AND ENVIRONMENTAL TECHNOLOGY
Author(s): CHAO-CHIN CHAN , MING-ZEN CHANG , YEUH-HUI LIN , YI-QI HUANG
Abstract: Since the discovery of carbon nanostructures, this kind of carbon nanoparticles (CNPs) have attracted extensive attention due to their novel properties and potential applications such as in high-performing nano-materials, nanoelectronics, high-efficiency energy storage, cold field emitter. Carbon nanoparticles have been successfully synthesized by a self-heating detonation process using an energetic explosive of RDX to provide the need of high temperatures, high shock waves, and parts of carbon sources in the presence of various metalliccontaining catalysts. The products of carbon nanotubes and nano-scale catalyst particles are characterized by XRD, EDX and TEM techniques. The systematic experiments carried out indicate that catalysts can be selected to improve the yield of CNPs in the product distributions. These data experimentally show that it is possible for a cheaper process to produce CNPs under catalytic detonation conditions used in this study. The systematic experiments carrie
- Publication Date: 29-Dec-2015
- DOI: 10.15224/978-1-63248-084-2-68
- Views: 0
- Downloads: 0