Ignition and combustion characteristics and agglomerate evolution mechanism of aluminum in nAl/JP-10 nanofluid fuel
Author:
Funder
National Natural Science Foundation of China
Publisher
Springer Science and Business Media LLC
Link
http://link.springer.com/article/10.1007/s10973-019-08039-5/fulltext.html
Reference20 articles.
1. Glotov OG, Yagodnikov DA, Vorob’Ev VS, Zarko VE, Simonenko VN. Ignition, combustion, and agglomeration of encapsulated aluminum particles in a composite solid propellant II Experimental studies of agglomeration. Combust Explos Shock. 2007;43(3):320–33.
2. Brooks KP, Beckstead MW. Dynamics of aluminum combustion. J Propuls Power. 2012;11(4):769–80.
3. Ao W, Liu X, Rezaiguia H, Liu H, Wang Z, Liu P. Aluminum agglomeration involving the second mergence of agglomerates on the solid propellants burning surface: experiments and modeling. Acta Astronaut. 2017;136:219–29.
4. Kumar AS, Rao VB, et al. Evaluation of plastic bonded explosive (PBX) formulations based on RDX, aluminum, and HTPB for underwater applications. Propellants Explos Pyrotech. 2010;35(4):359–64.
5. Feng Y, Xia Z, Huang L, Yan X. Experimental investigation on the combustion characteristics of aluminum in air. Acta Astronaut. 2016;129:1–7.
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