Saylık, A. Et Al. 2025. Copula‐Based Data Augmentation and Machine Learning for Predicting Tensile Strength of 3D‐Printed PLA Under Anisotropic Conditions. JOURNAL OF APPLIED POLYMER SCIENCE , vol.1, no.1 , 1-2.

Saylık, A., Kösedağ, E., & Etem, T., (2025). Copula‐Based Data Augmentation and Machine Learning for Predicting Tensile Strength of 3D‐Printed PLA Under Anisotropic Conditions. JOURNAL OF APPLIED POLYMER SCIENCE , vol.1, no.1, 1-2.

Saylık, Ahmet, Ertan Kösedağ, And Taha Etem. "Copula‐Based Data Augmentation and Machine Learning for Predicting Tensile Strength of 3D‐Printed PLA Under Anisotropic Conditions," JOURNAL OF APPLIED POLYMER SCIENCE , vol.1, no.1, 1-2, 2025

Saylık, Ahmet Et Al. "Copula‐Based Data Augmentation and Machine Learning for Predicting Tensile Strength of 3D‐Printed PLA Under Anisotropic Conditions." JOURNAL OF APPLIED POLYMER SCIENCE , vol.1, no.1, pp.1-2, 2025

Saylık, A. Kösedağ, E. And Etem, T. (2025) . "Copula‐Based Data Augmentation and Machine Learning for Predicting Tensile Strength of 3D‐Printed PLA Under Anisotropic Conditions." JOURNAL OF APPLIED POLYMER SCIENCE , vol.1, no.1, pp.1-2.

@article{article, author={Ahmet Saylık Et Al. }, title={Copula‐Based Data Augmentation and Machine Learning for Predicting Tensile Strength of 3D‐Printed PLA Under Anisotropic Conditions}, journal={JOURNAL OF APPLIED POLYMER SCIENCE}, year=2025, pages={1-2} }