H. Tanabi And M. Erdal, "Development of strain monitoring system for glass fiber reinforced composites via embedded electrically conductive pathways," ADVANCED COMPOSITE MATERIALS , vol.28, no.6, pp.653-673, 2019
Tanabi, H. And Erdal, M. 2019. Development of strain monitoring system for glass fiber reinforced composites via embedded electrically conductive pathways. ADVANCED COMPOSITE MATERIALS , vol.28, no.6 , 653-673.
Tanabi, H., & Erdal, M., (2019). Development of strain monitoring system for glass fiber reinforced composites via embedded electrically conductive pathways. ADVANCED COMPOSITE MATERIALS , vol.28, no.6, 653-673.
Tanabi, Hamed, And MERVE ERDAL ERDOĞMUŞ. "Development of strain monitoring system for glass fiber reinforced composites via embedded electrically conductive pathways," ADVANCED COMPOSITE MATERIALS , vol.28, no.6, 653-673, 2019
Tanabi, Hamed And Erdal, MERVE E. . "Development of strain monitoring system for glass fiber reinforced composites via embedded electrically conductive pathways." ADVANCED COMPOSITE MATERIALS , vol.28, no.6, pp.653-673, 2019
Tanabi, H. And Erdal, M. (2019) . "Development of strain monitoring system for glass fiber reinforced composites via embedded electrically conductive pathways." ADVANCED COMPOSITE MATERIALS , vol.28, no.6, pp.653-673.
@article{article, author={Hamed Tanabi And author={MERVE ERDAL ERDOĞMUŞ}, title={Development of strain monitoring system for glass fiber reinforced composites via embedded electrically conductive pathways}, journal={ADVANCED COMPOSITE MATERIALS}, year=2019, pages={653-673} }