Gyusang Park scite author profile

Gyusang Park

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Infrared Emissivity of Stainless Steel Coated with Composites of Copper Particle and m-Aramid Resin

Oh¹,

Kim²,

Park³

et al. 2017

Journal of the Korean Society of Propulsion Engineers

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As a part of studies to lower the infrared (IR) emissivity from the surface of exhaust nozzle in the turbo jet engine, stainless steel plate was coated with copper particle/meta-aramid resin composites and the IR emissivity of the plate were investigated. Binders of filler particles based on synthetic polymers generally undergo thermal decomposition before 300℃. It was found that the meta aramid resin was thermally stable after the test at 320℃, confirming the excellent thermal stability. Contents of copper particles in the composites were varied from 0 to 70% by volume. It was observed that the copper particle/meta aramid resin composites showed good adhesion after the tests at 320℃. The specimen coated with the composite containing 50 vol% of copper particles showed the lowest IR emissivity, 0.6, at 320℃.

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Experimental Study of a Micro Turbo Jet Engine Performance and IR Signal with Nozzle Configuration

Park¹,

Kim²,

Choi³

et al. 2016

Journal of the Korean Society of Propulsion Engineers

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Micro turbojet engine test and infrared signal measurement were conducted to understand the characteristics of the engine performance and infrared signal with the variants of the exhaust nozzle configuration. A cone type nozzle and five rectangle type nozzles which has aspect ratio from one to five were used for the experimental work. The results show that there are not much difference between cone and rectangle nozzles of the thrust and specific fuel consumption. However infrared signal from exhaust gas become smaller as increasing aspect ratio.

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Gyusang Park

Infrared Emissivity of Stainless Steel Coated with Composites of Copper Particle and m-Aramid Resin

Experimental Study of a Micro Turbo Jet Engine Performance and IR Signal with Nozzle Configuration

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