Failure Analysis of High Strength T91 Boiler Tubes used in Thermal Power Plant: A Case Study
##plugins.themes.academic_pro.article.main##
Abstract
##plugins.themes.academic_pro.article.details##
References
- J Ahmad, J Purbolaksono, L C Beng, A Ahmad, Failure evaluation on a highstrength alloy SA213-T91 super heater tube of a power generation, J. Process of mechanical engineering, Vol. 224 Part E, pp. 269-273, April 2010.
- R D Port and H M Herro, The NALCO guide to boiler failure analysis, Nalco Chemical Company, McGraw-Hill, Inc. 1991.
- D N French, Metallurgical failures in fossil fired boilers, A Wiley-Inter science Publication, John Wiley and Sons, New York, December 1983.
- Z F Hu, Heat resistance steel, microstructure evaluation and life assessment in power plant, School of material science and Engineering, Tongji University Shanghai, China, www.intechopen.com.
- D Gond, V Chawla, D Puri and S Prakash, Oxidation studies of T91 and T22 boiler steel in air at 9000 C, Journal of minerals & material characterization & engineering, Vol. 9, No. 8, pp. 749-761, 2010.
- Manual for Investigation and Correction of boiler tube failures, Electric Power Research Institute Report, 1985, Southwest Research Institute San Antonio,
- R Viswanathan, J R Foulds, D A Roberts, Method for estimating the temperature of reheater and superheater tubes in fossils boilers, Proceeding of the International Conference on Life Extension and Assessment, The Hague, 1988.
- D R H Jones, Creep failures of overheated boiler, superheater and reformer tube, Engineering failure analysis 11, pp. 873893, 2004.