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Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide
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F. SEVİM And A. ATALAY, "Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide," ACS OMEGA , vol.8, no.48, pp.45277-45287, 2023

SEVİM, F. And ATALAY, A. 2023. Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide. ACS OMEGA , vol.8, no.48 , 45277-45287.

SEVİM, F., & ATALAY, A., (2023). Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide. ACS OMEGA , vol.8, no.48, 45277-45287.

SEVİM, Fatih, And Ahmet ATALAY. "Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide," ACS OMEGA , vol.8, no.48, 45277-45287, 2023

SEVİM, Fatih And ATALAY, Ahmet. "Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide." ACS OMEGA , vol.8, no.48, pp.45277-45287, 2023

SEVİM, F. And ATALAY, A. (2023) . "Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide." ACS OMEGA , vol.8, no.48, pp.45277-45287.

@article{article, author={Fatih SEVİM And author={Ahmet ATALAY}, title={Artificial Neural Network Approach for Modeling of Effect of Ultrasound on the Dissolution of Magnesia in Aqueous Carbon Dioxide}, journal={ACS OMEGA}, year=2023, pages={45277-45287} }