Bilişik, A. And Kundak, H. 2023. Development of Three-Dimensional (3D) Biodegradable Poly-glycolic acid fiber (PGA) Preforms for Scaffold Applications: Experimental Patterning and Fiber Volume Fraction-Porosity Modeling Study. POLYMERS , vol.15, no.9 , 1-31.

Bilişik, A., & Kundak, H., (2023). Development of Three-Dimensional (3D) Biodegradable Poly-glycolic acid fiber (PGA) Preforms for Scaffold Applications: Experimental Patterning and Fiber Volume Fraction-Porosity Modeling Study. POLYMERS , vol.15, no.9, 1-31.

Bilişik, ABDULKADİR, And Hikmet Kundak. "Development of Three-Dimensional (3D) Biodegradable Poly-glycolic acid fiber (PGA) Preforms for Scaffold Applications: Experimental Patterning and Fiber Volume Fraction-Porosity Modeling Study," POLYMERS , vol.15, no.9, 1-31, 2023

Bilişik, ABDULKADİR And Kundak, Hikmet. "Development of Three-Dimensional (3D) Biodegradable Poly-glycolic acid fiber (PGA) Preforms for Scaffold Applications: Experimental Patterning and Fiber Volume Fraction-Porosity Modeling Study." POLYMERS , vol.15, no.9, pp.1-31, 2023

Bilişik, A. And Kundak, H. (2023) . "Development of Three-Dimensional (3D) Biodegradable Poly-glycolic acid fiber (PGA) Preforms for Scaffold Applications: Experimental Patterning and Fiber Volume Fraction-Porosity Modeling Study." POLYMERS , vol.15, no.9, pp.1-31.

@article{article, author={ABDULKADİR BİLİŞİK And author={Hikmet Kundak}, title={Development of Three-Dimensional (3D) Biodegradable Poly-glycolic acid fiber (PGA) Preforms for Scaffold Applications: Experimental Patterning and Fiber Volume Fraction-Porosity Modeling Study}, journal={POLYMERS}, year=2023, pages={1-31} }