Ç. Arslan And M. DOĞAN, "Flame retardancy of basalt fiber-reinforced PBT composite: effect of red phosphorus and TiO2 synergism," Journal of Thermal Analysis and Calorimetry , vol.148, no.19, pp.10151-10161, 2023
Arslan, Ç. And DOĞAN, M. 2023. Flame retardancy of basalt fiber-reinforced PBT composite: effect of red phosphorus and TiO2 synergism. Journal of Thermal Analysis and Calorimetry , vol.148, no.19 , 10151-10161.
Arslan, Ç., & DOĞAN, M., (2023). Flame retardancy of basalt fiber-reinforced PBT composite: effect of red phosphorus and TiO2 synergism. Journal of Thermal Analysis and Calorimetry , vol.148, no.19, 10151-10161.
Arslan, Çağrıalp, And MEHMET DOĞAN. "Flame retardancy of basalt fiber-reinforced PBT composite: effect of red phosphorus and TiO2 synergism," Journal of Thermal Analysis and Calorimetry , vol.148, no.19, 10151-10161, 2023
Arslan, Çağrıalp And DOĞAN, MEHMET. "Flame retardancy of basalt fiber-reinforced PBT composite: effect of red phosphorus and TiO2 synergism." Journal of Thermal Analysis and Calorimetry , vol.148, no.19, pp.10151-10161, 2023
Arslan, Ç. And DOĞAN, M. (2023) . "Flame retardancy of basalt fiber-reinforced PBT composite: effect of red phosphorus and TiO2 synergism." Journal of Thermal Analysis and Calorimetry , vol.148, no.19, pp.10151-10161.
@article{article, author={Çağrıalp Arslan And author={MEHMET DOĞAN}, title={Flame retardancy of basalt fiber-reinforced PBT composite: effect of red phosphorus and TiO2 synergism}, journal={Journal of Thermal Analysis and Calorimetry}, year=2023, pages={10151-10161} }