Eryıldız, M. Et Al. 2025. Optimization of Thermal, Mechanical, Biodegradation, and Shape Memory Properties in 4D-Printed PLA/PCL Blends for Spinal Cages. POLYMERS FOR ADVANCED TECHNOLOGIES , vol.36, no.3 , 1-17.

Eryıldız, M., Karakuş, A., Demirci, M., Altintas Kadirhan, O. A., & Ekşi Altan, M., (2025). Optimization of Thermal, Mechanical, Biodegradation, and Shape Memory Properties in 4D-Printed PLA/PCL Blends for Spinal Cages. POLYMERS FOR ADVANCED TECHNOLOGIES , vol.36, no.3, 1-17.

Eryıldız, Meltem Et Al. "Optimization of Thermal, Mechanical, Biodegradation, and Shape Memory Properties in 4D-Printed PLA/PCL Blends for Spinal Cages," POLYMERS FOR ADVANCED TECHNOLOGIES , vol.36, no.3, 1-17, 2025

Eryıldız, Meltem Et Al. "Optimization of Thermal, Mechanical, Biodegradation, and Shape Memory Properties in 4D-Printed PLA/PCL Blends for Spinal Cages." POLYMERS FOR ADVANCED TECHNOLOGIES , vol.36, no.3, pp.1-17, 2025

Eryıldız, M. Et Al. (2025) . "Optimization of Thermal, Mechanical, Biodegradation, and Shape Memory Properties in 4D-Printed PLA/PCL Blends for Spinal Cages." POLYMERS FOR ADVANCED TECHNOLOGIES , vol.36, no.3, pp.1-17.

@article{article, author={Meltem ERYILDIZ Et Al. }, title={Optimization of Thermal, Mechanical, Biodegradation, and Shape Memory Properties in 4D-Printed PLA/PCL Blends for Spinal Cages}, journal={POLYMERS FOR ADVANCED TECHNOLOGIES}, year=2025, pages={1-17} }