Dieses Bild zeigt Miloš Drašković

Miloš Drašković

Herr Dipl.-Ing.

Forschungsgruppenleiter Materialcharakterisierung und Prüftechnik
Institut für Flugzeugbau

Kontakt

+49 711 685 60527
 +49 711 685 62449

Pfaffenwaldring 31
70569 Stuttgart
Deutschland
Raum: 5.532

Fachgebiet

Ermüdung von Faserverbundwerkstoffe, Materialcharakterisierung von FVK, Machine Learning, XFEM Simulation 

  1. Draskovic, Milos; Pickett, Anthony K.; Middendorf, P. (2018): In-Situ Image Processing of Fatigue Damaged Cross-Ply Laminates Coupled With Simulation to Predict Residual Strength Degradation, ECCM 18 - 18th European Conference on Composite Materials, Athens, Greece (ECCM 18 - 18th European Conference on Composite Materials).
  2. Draskovic, Milos; Pickett, A. K.; Carosella, Stefan; u. a. (2017): Accelerated Residual Strength After Fatigue Testing Using In-Situ Image Processing for Damage Detection, SAMPE Conference 2017, Stuttgart (SAMPE Conference 2017).
  3. Draskovic, Milos; Pickett, A. K.; Middendorf, Peter (2017): Influence of Ply Waviness on the Residual Strength After Fatigue in GFRP - Comparison of Localized and Uniform Defects, 8th International Conference on Composites Testing and Model Identification, Leuven, Belgium (8th International Conference on Composites Testing and Model Identification).
  4. Poppe, Christian; Fial, J.; Kräger, Luise; u. a. (2017): Zeit- und kosteneffiziente Prozess- und Produktentwicklung für den Hochleistungs-Faserverbundleichtbau mittels Nasspresstechnologie, 4. Technologietag Hybrider Leichtbau, Stuttgart (4. Technologietag Hybrider Leichtbau).
  5. Meiler, S.; Fey, P.; Kreutzbruck, Marc; u. a. (2016): Nondestructive Testing of CFRP with Thermoplastic Matrix, ANTEC, Indianapolis, USA (ANTEC).
  6. Draskovic, Milos; Galappathithi, U.I.K.; Pickett, A. K.; u. a. (2013): Influence of ply waviness on residual strength and fatigue degradation of composite wind turbine blades, ICCM19, Montreal (ICCM19).
  7. Galappathithi, U.I.K.; Pickett, A. K.; Draskovic, Milos; u. a. (2013): The Effect of Ply Waviness for the Fatigue Life of Composite Wind Turbine Blades, ICREPQ 13  (RE&PQJ), Bilbao (ICREPQ 13  (RE&PQJ)).
  8. Galappathithi, U.I.K.; Pickett, Anthony; Draskovic, Milos; u. a. (2013): The Effect of Ply Waviness for the Fatigue Life of Composite Wind Turbine Blades, in: Renewable Energy & Power Quality Journal (RE&PQJ), (Renewable Energy & Power Quality Journal (RE&PQJ)), Nr. 11, S. 1195--1199.

Ermüdung von Faserverbundwerkstoffe

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