Home ›› Partners ›› The Szewalski Institute of Fluid – Flow Machinery

The Szewalski Institute of Fluid – Flow Machinery

Department of Mechanics of Intelligent Structures

Task manager Prof. PhD Eng. Wiesław Ostachowicz
Contact 058 6995 285
Link http://www.imp.gda.pl/en/o4/z1/
Tasks
  • Formulation of the method (theoretical base, research literature, developing the applicability of assumptions, sensitivity analysis method)
  • Design and implementation of a fragment of shell airplane model and a leg of drilling platform for verification and calibration of test apparatus.
  • Testing dynamic characteristics depending on extortion.
  • Drawing up the project of monitoring system including the purchase of equipment for model tests.
  • Implementation of the prototype and researches of a fragment of shell airplane model.
  • Implementation of the prototype and researches of a leg of drilling platform.
  • Drawing up the model of a leg of drilling platform and the spectrum of its loading.
  • Drawing up the fragment of shell airplane model and the spectrum of its loading.
  • Modeling of damage, the measurement system modeling, numerical simulation of the method.
  • Numerical calculations of both constructions taking damages into consideration (MES).
  • Drafting of the measuring system - sensors, systems for collecting and processing signals.
  • Development of algorithms for assessment, development of rules and procedures for calibration.
  • Setting the measurement system parameters to be installed on the drilling platform model.
  • Tests of the prototype on genuine objects (such as an aircraft wing)
  • Development of the forecasting model for the sustainability of the analyzed construction.
  • The project for installation of construction’ strength monitoring and the project of system mounting for existed research position.
  • Construction of the algorithm processing and analysis of measurement data, develop a computer program.
  • Numerical analysis of measurement data and the identification of the instantaneous loads and fatigue design.
  • Develop methods for forecasting the possible risks during the operation
  • Safety assessment of tested objects.
Purpose of work Monitoring system for isotropic and orthotropic constructions.
Currently ongoing works
  • Design and implementation of a fragment of shell airplane model and a leg of drilling platform for the verification and calibration of test equipment.
  • Testing dynamic characteristics depending on extortion.
  • Drawing up the project of monitoring system including the purchase of equipment for model tests.
  • Drawing up the model of a leg of drilling platform and the spectrum of its loading.
  • Drawing up the fragment of shell airplane model and the spectrum of its loading.
Results
  • Development of theoretical basis of methods for monitoring the technical state of the constructions based on TMP transducers and FBG sensors.
  • Sensitivity analysis of method based on fiber optic sensors FBG.
Publications and reports

Publications:

  1. Malinowski P., Wandowski T., Ostachowicz W., Guided waves for aircraft panel monitoring, 4th Asia-Pacfic Workshop on Structural Health Monitoring, 5-7 December 2012, Melbourne, Australia.
  2. Opoka S., Murawski L., Wandowski T., Malinowski P., Ostachowicz W., Strain as Damage Indicator for Truss and Frame Structures, 4th Asia-Pacfic Workshop on Structural Health Monitoring, 5-7 December 2012, Melbourne, Australia.
  3. Ostachowicz W., Kudela P., Radzienski M., Guided wavefield images filtering for damage localization, 4th Asia-Pacfic Workshop on Structural Health Monitoring, 5-7 December 2012, Melbourne, Australia.
  4. Ostachowicz W., Kudela P., Malinowski P., Opoka S., Radzieński M.W., Skarbek Ł, Wandowski T., Structural health monitoring based on piezoelectric sensors, CD-ROM Proceedings of the 6th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), September 10-14, 2012, Vienna, Austria.
  5. Murawski L., Ostachowicz W., Opoka S., Mieloszyk M., Majewska K., Practical application of monitoring system based on optical sensors for marine constructions, Key Engineering Materials Vol. 518, 2012, pp 261-270.
  6. Murawski L., Ostachowicz W., Mieloszyk M., Majewska K., Monitoring Possibility of Sailing Ships’ Masts, Proc of. EWSHM, Drezden, Germany, 2012.
  7. Król A., Majewska K., Mieloszyk M., Murawski L., Ostachowicz W., Weintrit A., Fibre Bragg grating sensor grids for structural health monitoring of the foremast of STS Dar Młodzieży, Journal of Mechanical Engineering Science, Proceedings of the Institution of Mechanical Engineers Part C (in print), 2012.
  8. Malinowski P., Wandowski T., Ostachowicz W., Investigation of sensor placement in Lamb wave-based SHM method, Key Engineering Materials, 518 (2012) 174-183
  9. Żak A., Radzieński M, Krawczuk M., Ostachowicz W., Damage detection strategies based on propagation of guided elastic waves. Smart Materials and Structures, 21, 2012, 035024, doi:10.1088/0964-1726/21/3/035024.
  10. Ostachowicz W., Murawski L., Opoka S., Wandowski, T., Malinowski P., Mieloszyk M., Majewska K., Practical application of SHM system based on optical FBG sensors for truss structures. MEMSCON Workshop: Towards Intelligent Civil Infrastructure Ateny, Grecja,2012
  11. Żak A., Ostachowicz W., Krawczuk M., Damage detection strategies for aircraft shell–like structures based on propagation guided elastic waves. 9th International Conference on Damage Assessment of Structures. Journal of Physics Conference Series 305, 2011, 012055, doi:10.1088/1742-6596/305/1/012055.
  12. Żak A., Ostachowicz W., Propagation of guided elastic waves in aircraft structural elements by the spectral finite element method. 8th International Workshop on Structural Health Monitoring, Stanford University, Stanford, CA, September 13-15, 2011, pp. 2561-2567.
  13. Wandowski T. Malinowski P., Ostachowicz W.: Damage detection with concentrated configurations of piezoelectric transducers. Smart Materials and Structures 20 2011 025002, doi: 10.1088/0964-1726/20/2/025002.
  14. Opoka S., Murawski L., Wandowski T., Malinowski P., Ostachowicz W., Damage detection experiment on offshore platform leg model with usage of fibre optic technique based on FBG sensors, Proc. 8th International Conference on Condition Monitoring and Machinery Failure Prevention Technologies Cardiff UK, 20-22 czerwca, 2011
  15. Malinowski P., Wandowski T., Ostachowicz W., Sensor arrays for damage localization using Lamb waves propagation phenomena, EURODYN 2011 Belgia
  16. Murawski L., Opoka S., Ostachowicz W., Wandowski T., Malinowski P.: Practical application of SHM system based on FBG sensors for offshore platform. 8th International Conference on Structural Dynamics, EURODYN–2011
  17. Mieloszyk M., Malinowski P., Wandowski T., Ostachowicz W.: Determination of the temperature field using Fibre Bragg Grating sensors and infrared thermography method, 5th ECCOMAS Thematic Conference on Smart Structures and Materials SMART'11, Saarbrucken, Niemcy
  18. Mieloszyk M., Majewska K., Radzieński M., Ostachowicz W.: Structural health Monitoring of composite structure, 2nd International Conference on Inverse Problems in Mechanics of structures and Materials (IPM 2011), 2011, Rzeszów-Sieniawa, Polska
  19. Murawski L., Ostachowicz W., Opoka S., Mieloszyk M, Majewska K.: Practical application of SHM system based on optical FBG sensors for marine constructions. 2nd International Workshop of Smart Diagnostic of Structure, Kraków 2011
  20. Murawski L., Opoka S., Majewska K., Mieloszyk M., Ostachowicz W., Weintrit A.: Investigations of Marine Safety Improvements by Structural Health Monitoring Systems. [in]: Miscellaneous Problems in Maritime Navigation, Transport and Shipping. CRC Press, Balkema Book, 2011., pp. 83–89
  21. Ostachowicz W., Wandowski T., Malinowski P.: Damage detection using laser vibrometry, Proceedings of 2nd International Symposium on NDT in Aerospace, CD-ROM, 2010.
  22. Malinowski P., Wandowski T., Kudela P., Ostachowicz W., Laser vibrometry for guided wave propagation visualisation and damage detection, AIP Conference Proceedings, Vol. 1253, 2010, 9th International Conference on vibration measurements by laser and noncontact techniques, 22-25.06.2010, Ancona, Włochy
  23. Żak A., Ostachowicz W., An algorithm to model SMA behaviour by the finite element method. 4th European Conference on Computational Mechanics, Palais des Congrès, Paris, France, May 16-21, 2010, pp. 1-2.
  24. Ostachowicz W., Wandowski T., Malinowski P.: Damage detection using laser vibrometry, Proceedings of 2nd International Symposium on NDT in Aerospace, CD-ROM, 2010.
  25. Murawski L., Opoka S., Ostachowicz W.: Estimation of Measurement and Calculation Errors and Analysis of Damage Detection Possibility for SHM System of Offshore Structure. Proc. of 5th European Workshop on SHM, 28 June – 2 July, Sorrento, Italy 2010
  26. Żak A., Krawczuk M., Ostachowicz W., Propagation of guided elastic waves in shell-type aircraft structural elements. 5th European Workshop on Structural Health Monitoring, Sorrento, Italy 2010
  27. Wandowski T., Malinowski P., Ostachowicz W.: Damage localisation using various signal filtering approaches, Proceedings of ISMA 2010 International Conference on Noise and Vibration Engineering including USD 2010, CD-ROM
  28. Murawski L., Opoka S., Ostachowicz W.: Investigation on stability, sensivity and applicability of SHM system based on FBG sensors. 22nd International Congress Condition Monitoring and Diagnostic Engineering Management, COMADEM–2009, 9–11 June 2009, San Sebastian, Spain, pp. 473–480.
  29. Krawczuk M., Kudela P., Murawski L., Ostachowicz W., Żak A.: Elastic wave propagation software in structural health monitoring. 22nd International Congress Condition Monitoring and Diagnostic Engineering Management, COMADEM–2009, 9–11 June 2009, San Sebastian, Spain, pp. 571–574.
  30. Krawczuk M., Kudela P., Murawski L., Ostachowicz W., Żak A.: Elastic wave propagation software – Visualization methods. [Proc.]: 18th International Conference on Computer Methods in Mechanics CMM–2009, 18–21 May 2009, Zielona Góra, Poland, pp. 255–256.

Reports:

  • Sensitivity analysis of method based on fiber optic sensors FBG - building a model of measurement tests.
  • Sensitivity analysis of method based on fiber optic sensors FBG - conduct multi-variant testing models of strain gauge beams and rotor.
  • Development of theoretical basis of methods for monitoring the technical state of constructions – based on TMP transducers.
  • Development of theoretical basis of methods for monitoring the technical state of constructions – based on FBG sensors.

il

pw

mchtr

agh

simr

imp

tr

ippt