Y. Kahraman Et Al. , "Composition design of PLA/TPU emulsion blends compatibilized with multifunctional epoxy-based chain extender to tackle high impact resistant ductile structures," JOURNAL OF APPLIED POLYMER SCIENCE , vol.139, no.12, 2022
Kahraman, Y. Et Al. 2022. Composition design of PLA/TPU emulsion blends compatibilized with multifunctional epoxy-based chain extender to tackle high impact resistant ductile structures. JOURNAL OF APPLIED POLYMER SCIENCE , vol.139, no.12 .
Kahraman, Y., Alkan Göksu, Y., Özdemir, B., GÜMÜŞ, B., & Nofar, M., (2022). Composition design of PLA/TPU emulsion blends compatibilized with multifunctional epoxy-based chain extender to tackle high impact resistant ductile structures. JOURNAL OF APPLIED POLYMER SCIENCE , vol.139, no.12.
Kahraman, Yusuf Et Al. "Composition design of PLA/TPU emulsion blends compatibilized with multifunctional epoxy-based chain extender to tackle high impact resistant ductile structures," JOURNAL OF APPLIED POLYMER SCIENCE , vol.139, no.12, 2022
Kahraman, Yusuf Et Al. "Composition design of PLA/TPU emulsion blends compatibilized with multifunctional epoxy-based chain extender to tackle high impact resistant ductile structures." JOURNAL OF APPLIED POLYMER SCIENCE , vol.139, no.12, 2022
Kahraman, Y. Et Al. (2022) . "Composition design of PLA/TPU emulsion blends compatibilized with multifunctional epoxy-based chain extender to tackle high impact resistant ductile structures." JOURNAL OF APPLIED POLYMER SCIENCE , vol.139, no.12.
@article{article, author={Yusuf Kahraman Et Al. }, title={Composition design of PLA/TPU emulsion blends compatibilized with multifunctional epoxy-based chain extender to tackle high impact resistant ductile structures}, journal={JOURNAL OF APPLIED POLYMER SCIENCE}, year=2022}