@inproceedings{8ce29072986846d984458e29f7a7c131,
title = "Effect of nano-magnesium on the thermal decomposition of PTFE",
abstract = "Due to high reaction activity and high combustion heat release, magnesium is widelyused in the field of explosives. The research focus of this article is the effect of magnesium powdersize and content on the thermal decomposition of PTFE. Two different particle sizes of magnesiumpowder are regarded as research objects. The thermal behavior of Mg/PTFE energetic system wasinvestigated by TG-DSC analyzer. The experimental results show that magnesium has a catalyticeffect on the thermal decomposition of PTFE. With the increase of magnesium content, thedecomposition peak temperature of PTFE decreased firstly and when passed the ratio 50%increased, the best mixing ratio is Mg: PTFE =50:50. Within nano powder, the activation energy ofPTFE decreased by 150kJ·mol-1 compared to 112 kJ·mol-1 by mixing with micro powder. Obviouslynano powder has a better reactivity than micro powder, so has a more obvious catalytic effect.",
keywords = "Content, Magnesium, Particle size, TG-DSC, Thermal decomposition",
author = "Lu Liu and Hui Ren and Jiao, {Qing Jie}",
note = "Publisher Copyright: {\textcopyright} (2015) Trans Tech Publications, Switzerland.; 2014 - China Functional Material Technology and Industry Forum, CFMTIF 2014 ; Conference date: 26-08-2014 Through 28-08-2014",
year = "2015",
doi = "10.4028/www.scientific.net/MSF.809-810.155",
language = "English",
series = "Materials Science Forum",
publisher = "Trans Tech Publications Ltd.",
pages = "155--160",
editor = "Guangming Zhao and Yu Tang and Lang He and Lixin Chen and Bin Long and Zunyu Nie and Haohua Chen",
booktitle = "2014 - China Functional Materials Technology and Industry Forum",
address = "Switzerland",
}