Callioglu, HSayman, OAtaberk, N2020-03-262020-03-2620050892-7057https://dx.doi.org/10.1177/0892705705041155https://hdl.handle.net/20.500.12395/19720In this study, a thermal elastic-plastic stress analysis is carried out in steel fiber-reinforced symmetric thermoplastic laminated plates. The material is assumed to be strain-hardening. The orientation angles are chosen as, (0 degrees/90 degrees)(s), (30 degrees/ -30 degrees)(s), (45 degrees/-45 degrees)(s), (60 degrees/-60 degrees)(s), (15 degrees/0 degrees)(s), (30 degrees/0 degrees)(s), (45 degrees/0 degrees)(s), (60 degrees/0 degrees)(s), (75 degrees/0 degrees)(s). The Tsai-Hill theory is used as a yield criterion in the solution. Temperature distribution is chosen as +T-0 and -T-0 at the upper and lower surfaces, respectively. It is found that plastic yielding occurs at the same temperature; all the orientation angles and the plastic region expands the same at the same temperature.en10.1177/0892705705041155info:eu-repo/semantics/openAccessthermal stress analysisresidual stresseslaminated platesthermoplastic compositesArticle1815976Q2WOS:000228364800004Q3