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Glass Ceramic Coating-an Alternative to Plasma Spray for Internal Combustion Engine Components
Technical Paper
2000-01-2918
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
A simple and cost effective vitreous enamelling technique is being adopted in the application of thermal barrier coating for internal combustion (IC) engine components. The raw materials including the process of coating are less costly in comparison to plasma spray technique. The coating using yttria partially stabilized zirconia with this technique is found effective for insulation of the engine components. The results obtained from this process are comparable with the published results using plasma spray [1]*. At the speed of 1500 rpm, brake specific fuel consumption (BSFC) decreases upto 9.99% with 200 micron (μ) glass ceramic coating piston whereas with 500 μ coating, it decreases upto 19.67% with advanced injection angle (40° before top dead centre) resulting higher thermal efficiency compared to base line engine.
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Authors
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Citation
Bose, P., Beg, R., Saha, S., Ghosh, B. et al., "Glass Ceramic Coating-an Alternative to Plasma Spray for Internal Combustion Engine Components," SAE Technical Paper 2000-01-2918, 2000, https://doi.org/10.4271/2000-01-2918.Also In
References
- Assanis, D. Wiese, K. Schwarz E. Bryzik, W. “The Effects of Ceramic Coatings on Diesel Engine Performance and Exhaust Emissions,” SAE paper- 910460 1991
- Kvernes, I. Hoel, R.H. “Advanced Coating Developments for Internal Combustion Engine Parts,” SAE Paper- 870160 1987
- Parker, D.A. “Ceramics Technology Application to Engine Components,” Twenty-First John Player Lecture, Proc. Instn. of Mech, Engrs. 199 A3 1985 !35 150
- Tolokan, R.P. Nablo, J.C. Brady, J. B. “Ceramic to Metal Attachment Using Low Modulus BRUNSBOND Pad,” Transaction of the ASME 104 July 1982
- Glance, P. “Designing with Ceramics,” Ceramic Engineering Science Proceeding 5 1984
- Kamo, R. Bryzik, W. “Cummins TACOM Advanced Adiabatic Engines,” SAE Paper- 840428 1984
- Churchill, R.A. Smith, J.E. Clark, N.N. Turton, R.A. “Low Heat Rejection Engines--A Concept Review,” SAE Paper- 880014 1988
- French, C.C.J. “Ceramics in Reciprocating Internal Combustion Engines,” SAE Paper- 841135 1984
- Pasto, A.S. “Silicon Nitride - Cordierite Composites for Diesel Engine Applications,” Ceramic Engineering Science Proceeding 5 1984
- Worthen, R.P. Pasto, A.E. “Ceramic Engine Components,” SAE Paper- 881150 1989
- Beg, R.A. Bose, P.K. Ghosh, B.B. Banerjee, T.K. Ghosh, A.K. “Experimental Investigations On Some Performance Parameters of a Diesel Engine Using Ceramic Coating on the Top of the Piston,” SAE Paper- 970207 1997
- Majumdar, A Das, S.K. Dutta, S Biswas, K.K. “Glass Ceramic Coating for Steel and Nimonic Alloy,” Trans. Ind., Ceram. Soc. 45 2 43 45 1986
- Assanis, D.N. Mathur, T. “The Effect of Thin Ceramic Coatings on Spark Ignition Engine Performance,” SAE Paper - 900903 1990
- Alkidas, A.C. “Effects of Injector Tip Configuration on the Performance and Emissions of an Uncooled Diesel,” SAE paper - 881613 1988
- Alkidas, A.C. “The Influence of Partial Suppression of Heat Rejection on the Performance and Emissions of a Divided Chamber Diesel Engine,” SAE paper- 860309 1986
- Lyn, W.T. “Calculations of the Effect of Rate of Heat Release on the Shape of Cylinder Pressure Diagrams and Cycle Efficiency,” Proc. Inst. Mech. Engineers (A.D.) 1 1960-61
- Dickey, D.W. “The Effect of Insulated Combustion Chamber Surfaces on Direct Injected Diesel Engine Performance, Emissions and Combustion,” SAE paper - 890292 1989