V. ESKİZEYBEK Et Al. , "The Mode i interlaminar fracture toughness of chemically carbon nanotube grafted glass fabric/epoxy multi-scale composite structures," Composites Part A: Applied Science and Manufacturing , vol.63, pp.94-102, 2014
ESKİZEYBEK, V. Et Al. 2014. The Mode i interlaminar fracture toughness of chemically carbon nanotube grafted glass fabric/epoxy multi-scale composite structures. Composites Part A: Applied Science and Manufacturing , vol.63 , 94-102.
ESKİZEYBEK, V., Avci, A., & Gülce, A., (2014). The Mode i interlaminar fracture toughness of chemically carbon nanotube grafted glass fabric/epoxy multi-scale composite structures. Composites Part A: Applied Science and Manufacturing , vol.63, 94-102.
ESKİZEYBEK, VOLKAN, Ahmet Avci, And Ahmet Gülce. "The Mode i interlaminar fracture toughness of chemically carbon nanotube grafted glass fabric/epoxy multi-scale composite structures," Composites Part A: Applied Science and Manufacturing , vol.63, 94-102, 2014
ESKİZEYBEK, VOLKAN Et Al. "The Mode i interlaminar fracture toughness of chemically carbon nanotube grafted glass fabric/epoxy multi-scale composite structures." Composites Part A: Applied Science and Manufacturing , vol.63, pp.94-102, 2014
ESKİZEYBEK, V. Avci, A. And Gülce, A. (2014) . "The Mode i interlaminar fracture toughness of chemically carbon nanotube grafted glass fabric/epoxy multi-scale composite structures." Composites Part A: Applied Science and Manufacturing , vol.63, pp.94-102.
@article{article, author={VOLKAN ESKİZEYBEK Et Al. }, title={The Mode i interlaminar fracture toughness of chemically carbon nanotube grafted glass fabric/epoxy multi-scale composite structures}, journal={Composites Part A: Applied Science and Manufacturing}, year=2014, pages={94-102} }