Advanced Professional Training on "Highlights and Challenges in Diagnosis of Structural Integrity and Failures" - CURRENTLY NOT SCHEDULED

Suggested readings

Boller C., Chang F.-K., Fujino Y. (Eds): Encyclopedia of Structural Health Monitoring, Vol. 1, Part 1: Introduction and Definitions. John Wiley & Sons, 2009.
ISBN 978–0-470–05822-0.

Beine C., Boller C., Netzelmann U., et al., NDT for CFRP Aeronautical Components – A Comparative Study. [In]: DGZfP Int. Symp. NDT in Aerospace. Hamburg/Germany 2010, www.ndt.net

Ostachowicz W., Güemes A., (eds.): New Trends in Structural Health Monitoring. Springer, 2013 (436 p.) ISBN 978–3-7091–1389-9.

Ostachowicz W., Kudela P., et. al.: Guided Waves in Structures for SHM. The Time – Domain Spectral Element Method. John Wiley & Sons, 2012, ISBN 978–0-470–97983-9.

Ginsberg D., Ruby M., Fritzen C.-P., Load identification approach based on basis pursuit denoising algorithm, J. of Physics, Conf. Series, 11th DAMAS, Vol. 628., 2015, http://iopscience. iop.org/article/10.1088/1742–6596/628/1/012030.

Buethe I., Dominguez N., Jung H., Fritzen C.-P., Ségur D., Reverdy F., Path-based MAPOD using numerical simulations, [In]: Woelcken, P., Papadopoulos, M. (Eds.), Smart Intelligent Aircraft Structures (SARISTU) – Springer, 2016, pp. 631–642, http://www.springer.com /us/book/9783319224121.

Fassois S.D., Sakellariou J.S., Statistical Time Series Methods for SHM. [In]: Encyclopedia of Structural Health Monitoring, Boller C., Chang F., Fujino, Y. (Eds.): John Wiley & Sons Ltd, Chichester, UK, pp. 443–472, 2009.

Kopsaftopoulos F., Fassois S.D.,
Vibration based health monitoring for a lightweight truss structure: experimental assessment of several statistical time series methods. Mechanical Systems and Signal Processing, Vol. 24, pp. 1977–1997, 2010.

Structural Monitoring with Fiber Optic Technology.[In]: New Trends in Structural Health Monitoring. Ostachowicz W., Güemes A. (Eds):Springer, 2013, ISBN 978–3-7091–1389-9.

Glišic´ B., Inaudi D.: Fiber Optic Methods for Structural Health Monitoring. John Wiley & Sons Ltd., 2007.

G. Mustafa G., Suleman A., Crawford C., Probabilistic micromechanical analysis of composite material stiffness properties for a wind turbine blade. J. Composite Structures, Vol. 131 (1), Nov. 2015, pp. 905–916.

Kocaman E.S., Keulen C.J., Akay E., Yildiz M., Turkmen H.S., Suleman A., An experimental study on the effect of length and orientation of embedded FBG sensors on the signal properties under fatigue loading. Science and Engineering of Composite Materials, doi: 10.1515/secm-2014–0029, 2015.

McGugan M., Pereira G. F., Sørensen B. F., Toftegaard H. L., Branner K., Damage tolerance and structural monitoring for wind turbine blades. [In]: Royal Society of London. Philosophical Transactions A. Mathematical, Physical and Engineering Sciences, 373, 16 p., 20140077, 2015.

Ostachowicz W., McGugan M., Schröder-Hinrichs J.-U., Łuczak M.(Eds.), MARE-WINT – New Materials and Reliability in Offshore Wind Turbine Technology (2016) ISBN 978–3-319–39094-9, open access: http://www.springer.com/us /book/9783319390949.

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