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Synthesizing Aluminum Particles Towards Controlling Electrostatic Discharge Ignition Sensitivity.

机译：合成铝颗粒控制静电放电点火灵敏度。

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Aluminum particles were synthesized with shell thicknesses ranging from 2.7 to 8.3nm and a constant diameter of 95nm. These fuel particles were combined with molybdenum trioxide particles and the electrostatic discharge (ESD) sensitivity of the mixture was measured. Results show ignition delay increased as the alumina shell thickness increased. These results correlated with electrical resistivity measurements of the mixture which increased with alumina concentration. A model was developed using COMSOL for ignition of a single Al particle. The ignition delay in the model was consistent with the experimental results suggesting that the primary ESD ignition mechanism is joule heating.

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Collins, E. S.; Gesner, J. P.; Pantoya, M. L.; Daniels, M. A.;
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年度 2014
页码 1-8
总页数 8
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Aluminum; Electrostatic charge; Ignition; Synthesis(chemistry); Delay; Molybdenum compounds; Safety; Sensitivity; Shells(structural forms); Thickness; Aluminum ignition; Esd safety; Esd(electrostatic discharge); Esd ignition sensitivity; Molybdenum trioxide particles; Ignition delay; Pe611102;

机译：铝;静电荷;点火;合成（化学）;延迟;钼化合物;安全性;敏感性;壳（结构形式）;厚度;铝点火; Esd安全性; Esd（静电放电）; Esd点火敏感性;三氧化钼颗粒;点火延迟; pe611102;

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1. Synthesizing aluminum particles towards controlling electrostatic discharge ignition sensitivity [J] . Eric S. Collins, Jeffery P. Gesner, Michelle L. Pantoya, Journal of Electrostatics . 2014,第1期

机译：合成铝颗粒以控制静电放电着火灵敏度
2. Iron oxide/aluminum/graphene energetic nanocomposites synthesized by atomic layer deposition: Enhanced energy release and reduced electrostatic ignition hazard [J] . Yan Ning, Qin Lijun, Hao Haixia, Applied Surface Science . 2017,第JUNa30期

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3. Controlling the electrostatic discharge ignition sensitivity of composite energetic materials using carbon nanotube additives [J] . Kade H. Poper, Eric S. Collins, Michelle L. Pantoya, Journal of Electrostatics . 2014,第5期

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4. Ignition of Different Size AI Particles in a Powder Bed by Electrostatic Discharge (ESD) Stimulation [C] . E. Beloni, E. Dreizin AIAA/ASME/SAE/ASEE Joint Propulsion Conference Exhibit . 2009

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5. Experimental studies on the ignition of single nickel/aluminum, iron/aluminum, and titanium particles [D] . Andrzejak, Timothy Al 2007

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6. Electrostatic Self-Assembly of Diamond Nanoparticles onto Al- and N-Polar Sputtered Aluminum Nitride Surfaces [O] . Taro Yoshikawa, Markus Reusch, Verena Zuerbig, 2016

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7. Effect of particle size and oxygen content on ignition and combustion of aluminum particles [O] . Yu'nan ZHOU, Jianzhong LIU, Daolun LIANG, 2017

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Synthesizing Aluminum Particles Towards Controlling Electrostatic Discharge Ignition Sensitivity.

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