Karaca, M. A. Et Al. 2025. Development of Bioactive 3D Printed MC/Al/Gel/HA Scaffolds with Enhanced Printability, Flexibility and Mechanical Strength. Macromolecular Materials and Engineering , vol.310, no.9 .

Karaca, M. A., Gök, Ö., & Ege, D., (2025). Development of Bioactive 3D Printed MC/Al/Gel/HA Scaffolds with Enhanced Printability, Flexibility and Mechanical Strength. Macromolecular Materials and Engineering , vol.310, no.9.

Karaca, Mehmet, ÖZGÜL GÖK ÖZATAY, And Duygu Ege. "Development of Bioactive 3D Printed MC/Al/Gel/HA Scaffolds with Enhanced Printability, Flexibility and Mechanical Strength," Macromolecular Materials and Engineering , vol.310, no.9, 2025

Karaca, Mehmet A. Et Al. "Development of Bioactive 3D Printed MC/Al/Gel/HA Scaffolds with Enhanced Printability, Flexibility and Mechanical Strength." Macromolecular Materials and Engineering , vol.310, no.9, 2025

Karaca, M. A. Gök, Ö. And Ege, D. (2025) . "Development of Bioactive 3D Printed MC/Al/Gel/HA Scaffolds with Enhanced Printability, Flexibility and Mechanical Strength." Macromolecular Materials and Engineering , vol.310, no.9.

@article{article, author={Mehmet Ali Karaca Et Al. }, title={Development of Bioactive 3D Printed MC/Al/Gel/HA Scaffolds with Enhanced Printability, Flexibility and Mechanical Strength}, journal={Macromolecular Materials and Engineering}, year=2025}