A. Arıkoğlu Et Al. , "EFFECT OF SECOND-ORDER VELOCITY SLIP AND TEMPERATURE JUMP CONDITIONS ON ROTATING DISK FLOW IN THE CASE OF BLOWING AND SUCTION WITH ENTROPY GENERATION," HEAT TRANSFER RESEARCH , vol.45, no.2, pp.171-198, 2014
Arıkoğlu, A. Et Al. 2014. EFFECT OF SECOND-ORDER VELOCITY SLIP AND TEMPERATURE JUMP CONDITIONS ON ROTATING DISK FLOW IN THE CASE OF BLOWING AND SUCTION WITH ENTROPY GENERATION. HEAT TRANSFER RESEARCH , vol.45, no.2 , 171-198.
Arıkoğlu, A., Komurgoz, G., Gunes, A. Y., & Özkol, İ., (2014). EFFECT OF SECOND-ORDER VELOCITY SLIP AND TEMPERATURE JUMP CONDITIONS ON ROTATING DISK FLOW IN THE CASE OF BLOWING AND SUCTION WITH ENTROPY GENERATION. HEAT TRANSFER RESEARCH , vol.45, no.2, 171-198.
Arıkoğlu, Aytaç Et Al. "EFFECT OF SECOND-ORDER VELOCITY SLIP AND TEMPERATURE JUMP CONDITIONS ON ROTATING DISK FLOW IN THE CASE OF BLOWING AND SUCTION WITH ENTROPY GENERATION," HEAT TRANSFER RESEARCH , vol.45, no.2, 171-198, 2014
Arıkoğlu, Aytaç Et Al. "EFFECT OF SECOND-ORDER VELOCITY SLIP AND TEMPERATURE JUMP CONDITIONS ON ROTATING DISK FLOW IN THE CASE OF BLOWING AND SUCTION WITH ENTROPY GENERATION." HEAT TRANSFER RESEARCH , vol.45, no.2, pp.171-198, 2014
Arıkoğlu, A. Et Al. (2014) . "EFFECT OF SECOND-ORDER VELOCITY SLIP AND TEMPERATURE JUMP CONDITIONS ON ROTATING DISK FLOW IN THE CASE OF BLOWING AND SUCTION WITH ENTROPY GENERATION." HEAT TRANSFER RESEARCH , vol.45, no.2, pp.171-198.
@article{article, author={Aytaç Arıkoğlu Et Al. }, title={EFFECT OF SECOND-ORDER VELOCITY SLIP AND TEMPERATURE JUMP CONDITIONS ON ROTATING DISK FLOW IN THE CASE OF BLOWING AND SUCTION WITH ENTROPY GENERATION}, journal={HEAT TRANSFER RESEARCH}, year=2014, pages={171-198} }