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http://dx.doi.org/10.5695/JKISE.2015.48.6.260

Effect of Heat Treatment on Interface Behavior in Ni-P/Cr Double Layer  

Choi, Myung-Hee (Surface Technology Division, Korea Institute of Materials Science)
Park, Young-Bae (School of Materials Science and Engineering, Andong National University)
Rhee, Byong-ho (VITZROTECH Co., Ltd.)
Byon, Eungsun (Surface Technology Division, Korea Institute of Materials Science)
Lee, Kyu Hwan (Surface Technology Division, Korea Institute of Materials Science)
Publication Information
Journal of the Korean institute of surface engineering / v.48, no.6, 2015 , pp. 260-268 More about this Journal
Abstract
The thermal barrier coating (TBC) for inner wall of liquid-fuel rocket combustor consists of NiCrAlY as bonding layer and $ZrO_2$ as a top layer. In most case, the plasma spray coating is used for TBC process and this process has inherent possibility of cracking due to large difference in thermal expansion coefficients among bonding layer, top layer and metal substrate. In this paper, we suggest crack-free TBC process by using a precise electrodeposition technique. Electrodeposited Ni-P/Cr double layer has similar thermal expansion coefficient to the Cu alloy substrate resulting in superior thermal barrier performance and high temperature oxidation resistance. We studied the effects of phosphorous concentrations (2.12 wt%, 6.97 wt%, and 10.53 wt%) on the annealing behavior ($750^{\circ}C$) of Ni-P samples and Cr double layered electrodeposits. Annealing temperature was simulated by combustion test condition. Also, we conducted SEM/EDS and XRD analysis for Ni-P/Cr samples. The results showed that the band layers between Ni-P and Cr are Ni and Cr, and has no formed with heat treatment. These band layers were solid solution of Cr and Ni which is formed by interdiffusion of both alloy elements. In addition, the P was not found in it. The thickness of band layer was increased with increasing annealing time. We expected that the band layer can improve the adhesion between Cr and Ni-P.
Keywords
Inner Wall of Liquid-fuel Rocket Combustor; Thermal Barrier Coating; Electrodeposition; Ni-P/Cr; Annealing; Band Layer;
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