K., R., K., K., D., R., Azmi, W. H., & F. , T. (2017). Investigation on effective thermal conductivity and relative viscosity of cellulose nanocrystal as a nanofluidic thermal transport through a combined experimental – Statistical approach by using Response Surface Methodology. Elsevier Ltd.
Chicago Style (17th ed.) CitationK., Ramachandran, Kadirgama K., Ramasamy D., W. H. Azmi, and Tarlochan F. Investigation on Effective Thermal Conductivity and Relative Viscosity of Cellulose Nanocrystal as a Nanofluidic Thermal Transport Through a Combined Experimental – Statistical Approach by Using Response Surface Methodology. Elsevier Ltd, 2017.
MLA (8th ed.) CitationK., Ramachandran, et al. Investigation on Effective Thermal Conductivity and Relative Viscosity of Cellulose Nanocrystal as a Nanofluidic Thermal Transport Through a Combined Experimental – Statistical Approach by Using Response Surface Methodology. Elsevier Ltd, 2017.