N. ŞAHİNER And S. DEMIRCI, "Improved mechanical strength of p(AAm) interpenetrating hydrogel network due to microgranular cellulose embedding," JOURNAL OF APPLIED POLYMER SCIENCE , vol.134, no.21, 2017
ŞAHİNER, N. And DEMIRCI, S. 2017. Improved mechanical strength of p(AAm) interpenetrating hydrogel network due to microgranular cellulose embedding. JOURNAL OF APPLIED POLYMER SCIENCE , vol.134, no.21 .
ŞAHİNER, N., & DEMIRCI, S., (2017). Improved mechanical strength of p(AAm) interpenetrating hydrogel network due to microgranular cellulose embedding. JOURNAL OF APPLIED POLYMER SCIENCE , vol.134, no.21.
ŞAHİNER, NURETTİN, And Sahin DEMIRCI. "Improved mechanical strength of p(AAm) interpenetrating hydrogel network due to microgranular cellulose embedding," JOURNAL OF APPLIED POLYMER SCIENCE , vol.134, no.21, 2017
ŞAHİNER, NURETTİN And DEMIRCI, Sahin. "Improved mechanical strength of p(AAm) interpenetrating hydrogel network due to microgranular cellulose embedding." JOURNAL OF APPLIED POLYMER SCIENCE , vol.134, no.21, 2017
ŞAHİNER, N. And DEMIRCI, S. (2017) . "Improved mechanical strength of p(AAm) interpenetrating hydrogel network due to microgranular cellulose embedding." JOURNAL OF APPLIED POLYMER SCIENCE , vol.134, no.21.
@article{article, author={NURETTİN ŞAHİNER And author={Sahin DEMIRCI}, title={Improved mechanical strength of p(AAm) interpenetrating hydrogel network due to microgranular cellulose embedding}, journal={JOURNAL OF APPLIED POLYMER SCIENCE}, year=2017}