Savran, M. Et Al. Maximization of Buckling Resistance for Lightweight Vegetable Based Hybrid Laminated Composites Combined with Synthetic Fibers. 2021. In Vegetable Fiber Composites and their Technological Applications , Springer Nature, Singapore, 81-105.

Savran, M., Aydın, L., Deveci, H. A., & Gültürk, E., (2021). Maximization of Buckling Resistance for Lightweight Vegetable Based Hybrid Laminated Composites Combined with Synthetic Fibers. Vegetable Fiber Composites and their Technological Applications (pp.81-105), Singapore: Springer Nature.

Savran, Melih Et Al. "Maximization of Buckling Resistance for Lightweight Vegetable Based Hybrid Laminated Composites Combined with Synthetic Fibers." In Vegetable Fiber Composites and their Technological Applications , 81-105. Singapore: Springer Nature, 2021

Savran, Melih Et Al. "Maximization of Buckling Resistance for Lightweight Vegetable Based Hybrid Laminated Composites Combined with Synthetic Fibers." Vegetable Fiber Composites and their Technological Applications , Springer Nature, 2021, pp.81-105.

Savran, M. Et Al. (2021) "Maximization of Buckling Resistance for Lightweight Vegetable Based Hybrid Laminated Composites Combined with Synthetic Fibers", Vegetable Fiber Composites and their Technological Applications . Singapore: Springer Nature.

@bookchapter{bookchapter, author ={Melih Savran Et Al. }, chaptertitle={Maximization of Buckling Resistance for Lightweight Vegetable Based Hybrid Laminated Composites Combined with Synthetic Fibers}, booktitle={ Vegetable Fiber Composites and their Technological Applications}, publisher={Springer Nature}, city={Singapore},year={2021} }