Search Results for İzmir Institute of Technology. Mechanical Engineering. - Narrowed by: Tez - Composite materials -- Fatigue. SirsiDynix Enterprise https://catalog.iyte.edu.tr/client/tr_TR/default_tr/default_tr/qu$003d$0025C4$0025B0zmir$002bInstitute$002bof$002bTechnology.$002bMechanical$002bEngineering.$0026qf$003dITYPE$002509Materyal$002bT$0025C3$0025BCr$0025C3$0025BC$0025091$00253ATEZ$002509Tez$0026qf$003dSUBJECT$002509Konu$002509Composite$002bmaterials$002b--$002bFatigue.$002509Composite$002bmaterials$002b--$002bFatigue.$0026rm$003dTEZ$002bKOLEKSIYONU0$00257C$00257C$00257C1$00257C$00257C$00257C0$00257C$00257C$00257Ctrue$0026te$003dILS$0026ps$003d300? 2024-06-20T07:23:38Z Investigation of mechanical properties and fatigue performance of carbon-glass fiber reinforced epxy hybrid composites ent://SD_ILS/0/SD_ILS:2140685 2024-06-20T07:23:38Z 2024-06-20T07:23:38Z by&#160;Sandallı, Hatice, author.<br/><a href="https://hdl.handle.net/11147/9627">Access to Electronic Versiyon.</a><br/>Format:&#160;El Yazması<br/> Optimum design of carbon/epoxy composite laminates for maximum fatigue life using multiaxial prediction models ent://SD_ILS/0/SD_ILS:2023889 2024-06-20T07:23:38Z 2024-06-20T07:23:38Z by&#160;Deveci, Hamza Arda, author<br/><a href="http://hdl.handle.net/11147/6890">Access to Electronic Versiyon.</a><br/>Format:&#160;El Yazması<br/>