Saygan, S. Et Al. 2022. Capillary boosting for enhanced heat pipe performance through bifurcation of grooves: Numerical assessment and experimental validation. International Communications in Heat and Mass Transfer , vol.137 .

Saygan, S., Akkus, Y., DURSUNKAYA, Z., & Cetin, B., (2022). Capillary boosting for enhanced heat pipe performance through bifurcation of grooves: Numerical assessment and experimental validation. International Communications in Heat and Mass Transfer , vol.137.

Saygan, Samet Et Al. "Capillary boosting for enhanced heat pipe performance through bifurcation of grooves: Numerical assessment and experimental validation," International Communications in Heat and Mass Transfer , vol.137, 2022

Saygan, Samet Et Al. "Capillary boosting for enhanced heat pipe performance through bifurcation of grooves: Numerical assessment and experimental validation." International Communications in Heat and Mass Transfer , vol.137, 2022

Saygan, S. Et Al. (2022) . "Capillary boosting for enhanced heat pipe performance through bifurcation of grooves: Numerical assessment and experimental validation." International Communications in Heat and Mass Transfer , vol.137.

@article{article, author={Samet Saygan Et Al. }, title={Capillary boosting for enhanced heat pipe performance through bifurcation of grooves: Numerical assessment and experimental validation}, journal={International Communications in Heat and Mass Transfer}, year=2022}