Hıdıroglu, M. Et Al. 2019. Reducing the hydrocarbon gas diffusion and increasing the pressure-impact strength of fuel transfer pipelines for use in the automotive industry using radiation crosslinked polyamide 12. RADIATION PHYSICS AND CHEMISTRY , vol.159 , 118-123.

Hıdıroglu, M., Aksüt, D., Serce, O., Karabulut, H., & Şen, M., (2019). Reducing the hydrocarbon gas diffusion and increasing the pressure-impact strength of fuel transfer pipelines for use in the automotive industry using radiation crosslinked polyamide 12. RADIATION PHYSICS AND CHEMISTRY , vol.159, 118-123.

Hıdıroglu, Mehtap Et Al. "Reducing the hydrocarbon gas diffusion and increasing the pressure-impact strength of fuel transfer pipelines for use in the automotive industry using radiation crosslinked polyamide 12," RADIATION PHYSICS AND CHEMISTRY , vol.159, 118-123, 2019

Hıdıroglu, Mehtap Et Al. "Reducing the hydrocarbon gas diffusion and increasing the pressure-impact strength of fuel transfer pipelines for use in the automotive industry using radiation crosslinked polyamide 12." RADIATION PHYSICS AND CHEMISTRY , vol.159, pp.118-123, 2019

Hıdıroglu, M. Et Al. (2019) . "Reducing the hydrocarbon gas diffusion and increasing the pressure-impact strength of fuel transfer pipelines for use in the automotive industry using radiation crosslinked polyamide 12." RADIATION PHYSICS AND CHEMISTRY , vol.159, pp.118-123.

@article{article, author={Mehtap Hıdıroglu Et Al. }, title={Reducing the hydrocarbon gas diffusion and increasing the pressure-impact strength of fuel transfer pipelines for use in the automotive industry using radiation crosslinked polyamide 12}, journal={RADIATION PHYSICS AND CHEMISTRY}, year=2019, pages={118-123} }