- CHOI, S.U.S. “Enhancing Thermal Conductivity of Fluid with Nanoparticles Development and Applications of Non - Newtonian Flow”, Vol. 66, p.99, 1999.
- Zhu, D., li, X., WANG, N., Wang, X., Gao, J. Curr. APPL.Phys(2009)
- CHOI, S.U.S. “Enhancing Thermal Conductivity Of Fluid With Nanoparticles Development And Applications Of Non Newtonian Flow”, Asme Int. Mech. Eng. congress and Exposition, San Fransisco, USA, (1999).
- Viota, J.L., Caballero, F.G., Duran, J.D.G. and Delgado, A.V J, Colloid Interface Sci. (2008)
- Beskok, A. karniadakis, G. “Micro Flow and Nano Flow Fundemantal and Simulation”, publication of the book Elsevier,2003.
- Alder, B.J., Wainwright, T.E.J. “Phase Transition for a Hard Sphere System”, J. chem. Phys. Vol.27, pp.1208-1209,1957.
- Alder, B.J., Wainwright, J. “Studies in Molecular Dynamics. General Methods”, j. chem. Phys. Vol.31, pp.459-466, 1959.
- Allen, M.P. and Tildesley, D.J. “Computer Simulation of Liquids”, Clarendon Press. Oxford, 1978.
- Abraham, F.F. “Computational Statical Mechanics, Methodology, Applications and Supercomputing”, J. Advances in Physics,1988.
- Rafii Tabar, H. “Modelling the Nano Scale- Phenomena in Condensed Matter Physics Via Computer –based Numerical Simulations”, Physics Report, 2001.
- Rahman, A. “Correlations in the Motion of Atoms in Liquid Argon”, physical review, pp. A405-A411,1964.
- Stiflinger, F.H. and Rahmani, A. "Improved Simulation of Liquid Water by Molecular Dynamics”, The J. chem. Phys., Vol 60, pp.1545-1557, 1974.
- http://lammps.sandia.gov
- Martin, G. and Thompson, A. P. “Industrial Property Prediction using Towhee and LAMMPS”, Sandia National Laboratories, 2003.
- Botan, A., Tazi, S., Rotenberg, B., and Turq, P. “Diffusion Coefficient Shear Viscosity of Rigid Water Models”, CNRS and UPMC Universe Paris, 2012.
- Franky, M. and Rummens, A. “A Critical Evaluation of Lennard –Jones and Stockmayer Potential Parameters and of Some Correlation Methods”, University of Regina, 1976.
- Rajabpor, A., Yousefi, F. “Molecular Dynamic Simulation of the Specific Heat Capacity of Water-Cu Nanoluids”, Int. nano letters, 2013.
- Bakhshan, Y. and Shadloo Jahromi, A. “Molecular Dynamics Simulation of Surface Specifics Effects on the Nano scale fluid flow”, Modarres Mechanical Engineering, Vol. 15, No. 5, pp. 176-184, 2015 (In Persian).
- Allen, M. P. and Tildesley, D. J. “Computer Simulation of Liquid Oxford University Pressa Oxforda,1989.
- sandia.gov/sjplimp/VMDTUTORIAL.HTM
- Daw, M. S. and Baskes, M. I. “Phys. Rev. B29644”, 1984.
- Mishin, Y. “Handbook of Materials Modelinged S Yip”, (The Netherlands: Springer), Vol. 2, pp. 459–463, 2005.
- Voter, A.F. John Wiley & Sons, “Intermetallic Compounds”, New York, Vol. 1, No. 4, p.77.83,1994.
- Wang, X. and Xu, X. “Thermophys. and Heat Transfer”, Vol. 13, pp. 474–480,1999.
- Eastman, J.A., Choi, S.U.S., Li, S., Yu, W., and Thompson, L.J. “Appl. Phys. Lett.”, Vol. 78, pp. 718–720, 2001.
- Patel, H.E., Das, S. K., Sundararajan, T., Nair, A. S., George, B., and Pradeep, T. “App. Phys. Lett.”, Vol. 83, pp. 2931–2933, 2003.
- Keblinski, P., Phillpot, S.R., Choi, S.U.S., and Eastman, J.A. “Mechanisms of Heat Flow in Suspensions of Nano-sized Particles (nanofluids)”, Int. J. Heat Mass Transfer; Vol. 45, pp.855–863, 2002.
- Jang, S. P. and Choi, S.U.S. “Appl. Phys. Lett.”, Vol. 84, pp.4316–4318, 2004.
- Kumar, D. H., Patel, H. E., Kumar, V.R.R., Sundararajan, T., Pradeepand, T., and Das, S. K. “Phys. Rev. Lett.”, Vol. 93, 2004.
- Prasher, R., Bhattacharya, P., and Phelan, P. E. “Phys. Rev. Lett.”, Vol. 94, 2005.
- Fourier, J., “The Analytical Theory of Heat”, London: Cambridge, 1878.
- Muller-Plathe, F. and Reith, D. “Cause and effect Reversed in Non-Equilibrium Molecular Dynamics: an Easy Route to Transport Coefficients”, Computational and Theoretical Polymer Science, Vol. 9, Nos. 3–4, pp. 203–209, 1999.
- Walker, E.A. “Influence Of Phonon Modes On The Thermal Conductivity Of Single-Wall, Double-Wall, and Functionalized Carbon Nanotubes”, Faculty of Graduate School of Vanderbilt University, 2012.
- Hoheisel, C. “Theoretical Treatment of Liquids and Liquid Mixture, Elsevier New York, 1993.
- Eapen, J. Li, J., and Yip, S. “Phys. Rev. Lett.”, Vol. 98, 028302, 2007.
- Hamidi, A. Amrollahi, A. Rashidi, A. “Analysing the Mathematical Models to Calculate the Thermal Conductivity of Nanofluids”, Iranian Chemical Engineering Journal, Vol. 8, No. 40, 2009.
- National Institute Of Standards And Technology,Thermophysical Properties Of Fluid Systems,Http://Webbook.Nist.Gov/Chemistry/Fluid/
- Ho, C.J., Liu, W.K., Chang, Y.S., Lin, C.C. “Natural Convection Heat Transfer of Alumina-Water Nanofluid in Vertical Square Enclosures: AnExperimental Study”, Int. J. Thermal Sciences, Vol. 49, pp. 1345-1353, 2010.
- Aminfar, H. and Razmara, N. “Molecular Dynamics Simulation of Liquid Argon Flow in Nanochannels using Different Potential Function”, Modarres Mechanical Engineering, Vol. 13, No. 6, pp. 114-125, 2015 (In Persian).
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