Experimental Crack Propagation Analysis of the Compressor Blades Working in High Cycle Fatigue Condition

Lourenço, N. J., Graça, M. L. A., Franco, L. A. L., & Silva, O. M. M.(2008). Fatigue failure of a compressor blade. Engineering Failure Analysis. 15, 1150-1154.10.1016/j.engfailanal.2007.11.006Search in Google Scholar

Kermanpur, A.; Sepehri Ami, H.; Ziaei-Rad, S., Nourbakhshnia, N., Mosaddeghfar, M.(2008). Failure analysis of Ti6Al4V gas turbine compressor blades, Engineering Failure Analysis. 15, 1052-1064.Search in Google Scholar

Silveira, E., Atxaga, G., & Irisarri, A.M.(2008). Failure analysis of a set of compressor blades. Engineering Failure Analysis. 15, 666-674.10.1016/j.engfailanal.2007.10.002Search in Google Scholar

Poznanska, A., Sniezek, M., & Wierzbinska, M.(2003). Pitting corrosion - main factor generating fracture of the compressor of aeroengine blades under operation [in Polish]. In: Proceedings of the IX Conference - Turbomachinery. Rzeszow.Search in Google Scholar

Troshchenko, V.T., & Prokopenko, A.V.(2000). Fatigue strength of gas turbine compressor blades. Engineering Failure Analysis. 7, 209-220.10.1016/S1350-6307(99)00013-8Search in Google Scholar

Park, M., Hwang, Young-H., Choi, Y.-S, & Kim, T.-G.(2002). Analysis of a J69-T-25 engine turbine blade fracture, Engineering Failure Analysis. 9, 593-601.Search in Google Scholar

Song K.-S., Kim, S.-G., Jung, D., & Hwang Y.-H.(2007). Analysis of the fracture of a turbine blade on a turbojet engine, Engineering Failure Analysis. 14, 877-883.Search in Google Scholar

Vardar N., Ekerim A.(2007). Failure analysis of gas turbine blades in a thermal power plant. Engineering Failure Analysis. 14, 743-749.10.1016/j.engfailanal.2006.06.001Search in Google Scholar

Xu X., & Yu Z.(2007). An investigation on the failed blades in a locomotive turbine. Engineering Failure Analysis. 14, 1322-1328.10.1016/j.engfailanal.2006.11.041Search in Google Scholar

Song, K., Kim, S., Jung, D., & Hwang, Y.(2007). Analysis of the fracture of a turbine blade on a turbojet engine Engineering Failure Analysis. 14, 877-883.Search in Google Scholar

Xie, Y. et al.(2006). Analysis of superalloy turbine blade tip cracking during service, Engineering Failure Analysis, 13, 1429-1436.10.1016/j.engfailanal.2005.07.022Search in Google Scholar

Witek, L.(2006). Failure analysis of turbine disc of an aero engine, Engineering Failure Analysis, 13(1). Elsevier Science.Search in Google Scholar

Witek, L., Kowalski, T., & Mamrowicz, J.(2007). Numerical stress and fatigue analysis of the first stage of turbine for helicopter engine. In: Proceedings of the International Conference on Aeronautical Fatigue, Napoli.Search in Google Scholar

Witek, L, Poznańska, A., & Wierzbińska, M. Fracture analysis of a compressor blade of an helicopter engine. Engineering Failure Analysis. 16(5), 1616-1622.10.1016/j.engfailanal.2008.10.022Search in Google Scholar

MSC Corporation.(2004). MSC-PATRAN User_s Manual, ver. 2004. Los Angeles: MSC Corporation.Search in Google Scholar

Michailov, P. B.(1961). Sprawocznik po Metaliczeskim Matierialam Turbino- i Motorostroenija, Petersburg.Search in Google Scholar

Dessault Systems.(2007). ABAQUS Users Manual, ver. 6.7. Abaqus Inc.Search in Google Scholar