IMAGE OF THE SURFACE OF GAS TURBINE BLADE AS A DIAGNOSTIC SIGNAL

1. Adamczyk J., Będkowski K. (2005), Digital methods in remote sensing, SGGW Publishing House, Ed. 1, Warsaw.Search in Google Scholar

2. Błachnio J., Bogdan M. (2010), A non-destructive method to assess condition of gas turbine blades, based on the analysis of bladesurface image. Russian Journal of Nondestructive Testing, Vol. 46, No. 11, 860-866.Search in Google Scholar

3. Błachnio J., Kułaszka A. (2009), Computer aided visual inspection of the technical condition of gas turbine blades during their operation period. Journal of KONES, Vol. 16, No. 3, 23-30.Search in Google Scholar

4. Bogdan M. (2009), Diagnostic investigations of gas turbine blades by digital processing of images acquired for their surfaces, PhD Thesis, Białystok Technical University, Białystok.Search in Google Scholar

5. Bogdan M., Błachnio J., Derlatka M. (2009), Computer-aided method of diagnostics of gas turbine blades. Acta Mechanica et Automatica, vol 3, no. 4, 13-16.Search in Google Scholar

6. Doros M. (2005), Image processing, Publishing Office of WIT, Warsaw.Search in Google Scholar

7. Karczewski, Z. (2008), Endoscopic diagnostics of marine engines, Diagnostyka, 3(47), pp.19-23.Search in Google Scholar

8. Pawlak W. (1983), The method for compensation of phase lag in analog low-pass filters, Scientific output of the Institute of Aviation, No. 92, Warsaw.Search in Google Scholar

9. Pike L. M., Flower H. L. (2006), Gas turbine superalloy with improved fabricability. Advanced Materials and Processes, ASM International, Vol. 164, No. 6, 39 - 43.Search in Google Scholar

10. Rafałowski M. (2004) Integrated image analysers as applied to measurements in lighting technology and to assess shapes of objects, Publishing Office of Białystok Technical University, Białystok.Search in Google Scholar

11. Sankowski D., Mosorov V., Strzecha K. (2011), Industrial systems dedicated image processing and analysis, Polish Socientific Publishers, Warsaw.Search in Google Scholar

12. Skočovský P., Podrábský T., Belan J. (2004), Operational degradation of aluminium-silicone layer of turbine blades made from Ni-based alloy, The Archive of Machinery Technology and Automation, Vol. 24, No. 1, 45 - 52.Search in Google Scholar

13. Szczepanik R., Rządkowski R. (2012), A study on the Dynamics of aero enkine blades under different operating conditions, Air Force Institute of Technology, Warsaw.Search in Google Scholar

14. Spychała J., Szczepankowski A., Kułaszka A., Sujka W. (2012), Report No23/34/2012, Air Force Institute of Technology, Warsaw.Search in Google Scholar

15. Watkins C. D., Sadun A., Marenka S. (1995), Modern methods for image processing, WNT Publishing House, Warsaw.Search in Google Scholar

16. Wróbel Z., Koprowski R. (2004), Practice in image processing within the MATLAB software, EXIT Academic Publishing House, Warsaw.Search in Google Scholar

17. Zieliński T. P. (2005), Digital signal processing - from theory to practice, Transport and Communications Publishers, Warsaw.Search in Google Scholar

18. Żółtowski B., Cempel C. (2004), Machinery fault diagnosis engineering, Polish Sosiety of Engineering Diagnosis, WarsawSearch in Google Scholar