Said, Z. Et Al. 2022. Synthesis, stability, density, viscosity of ethylene glycol-based ternary hybrid nanofluids: Experimental investigations and model -prediction using modern machine learning techniques. Powder Technology , vol.400 .

Said, Z., Cakmak, N. K., Sharma, P., Sundar, L. S., Inayat, A., KEKLİKCİOĞLU, O., ... Li, C.(2022). Synthesis, stability, density, viscosity of ethylene glycol-based ternary hybrid nanofluids: Experimental investigations and model -prediction using modern machine learning techniques. Powder Technology , vol.400.

Said, Zafar Et Al. "Synthesis, stability, density, viscosity of ethylene glycol-based ternary hybrid nanofluids: Experimental investigations and model -prediction using modern machine learning techniques," Powder Technology , vol.400, 2022

Said, Zafar Et Al. "Synthesis, stability, density, viscosity of ethylene glycol-based ternary hybrid nanofluids: Experimental investigations and model -prediction using modern machine learning techniques." Powder Technology , vol.400, 2022

Said, Z. Et Al. (2022) . "Synthesis, stability, density, viscosity of ethylene glycol-based ternary hybrid nanofluids: Experimental investigations and model -prediction using modern machine learning techniques." Powder Technology , vol.400.

@article{article, author={Zafar Said Et Al. }, title={Synthesis, stability, density, viscosity of ethylene glycol-based ternary hybrid nanofluids: Experimental investigations and model -prediction using modern machine learning techniques}, journal={Powder Technology}, year=2022}