Journal Papers:
| Sr # | Description |
|---|---|
| 1 | Z. Abbas, M. Naveed and M. Sajid, Heat transfer analysis for stretching flow over a curved surface with magnetic field, Journal of Engineering Thermo physics, 22 (04) 337-345 (2013). (I.F=0.812). |
| 2 | Z. Abbas, M. Naveed and M. Sajid, Nonlinear radiative heat transfer and Hall effects on a viscous fluid in a semi-porous curved channel, AIP Advances. 5, 107124 (2015). (I.F 1.444). |
| 3 | Z. Abbas, M. Naveed and M. Sajid, Hydromagnetic slip flow of nanofluid over a curved stretching surface with heat generation and thermal radiation, Journal of Molecular Liquids. 215 (2016) 756-762. (I.F 3.648). |
| 4 | M. Naveed, Z. Abbas, M. Sajid, MHD flow of a micropolar fluid due to a curved stretching sheet with thermal radiation, Journal of Applied Fluid Mechanics, 9 (1) 131-138 (2016). |
| 5 | M. Naveed, Z. Abbas and M. Sajid, Thermophoresis, Brownian and Hall effects on Blasius flow of nanofluid due to a curved surface with thermal radiation, The European Physical Journal – Plus. 131: 214 (2016). (I.F. 1.753). |
| 6 | M. Naveed, Z. Abbas and M. Sajid, Flow and heat transfer in a semi-porous curved channel with radiation and porosity effects, Journal of Porous Media, 19(5) 379-389 (2016). (I.F 1.144). |
| 7 | M. Sajid, S. A. Iqbal, M. Naveed and Z. Abbas, Joule heating and magnetohydrodynamics effects on ferrofluid flow in a semi-porous curved channel, Journal of Molecular Liquids, 222(2016) 1115-1120. (I.F. 3.648). |
| 8 | M. Naveed , Z. Abbas and M. Sajid, Hydromagnetic flow over an unsteady curved stretching surface, Engineering Science and Technology, an International Journal. 19 841-845 (2016). |
| 9 | M. Naveed, Z. Abbas, M. Sajid, Non-linear radiative heat transfer for the Blasius and Sakiadis flows over a curved stretching surface, International Journal of Thermophysics. (2017) 38:14 (I. F=0.829). |
| 10 | M. Sajid, S. A. Iqbal, M. Naveed and Z. Abbas, Effect of Homogeneous-heterogeneous reactions and magnetohydrodynamics on nanofluid for the Blasius flow with thermal radiations, Journal of Molecular Liquids, 233 (2017) 115-121(I.F. 4.513). |
| 11 | M. Naveed , Z. Abbas, M. Sajid and J. Hasnain, Dual solutions in hydromagnetic flow of a viscous fluid past a curved shrinking surface, Arabian Journal for Science and Engineering. 43 (2018) 1189-1194. (I.F 1.092). |
| 12 | Z. Abbas, M. Naveed, M. Naeem, and Q. M. Z. Zia, Analytical investigation of a Maxwell fluid flow with radiation in an axisymmetric semi-porous channel by Parameterized Perturbation Method, Journal of the Brazilian Society of Mechanical Sciences. (2018) 40:65 (I. F 1.627). |
| 13 | Z. Abbas, M. Rafiq and M. Naveed, Analysis of Erying Powell fluid flow in a curved channel with Cattaneo –Christov heat flux model, Journal of the Brazilian Society of Mechanical Sciences. (2018) 40:390 (I. F 1.627). |
| 14 | Z. Abbas, M. Imran and M. Naveed, Hydromagnetic flow of a Carreau fluid in a curved channel with nonlinear thermal radiation, Thermal Science, (2019) 23 (6) 3379-3390 (I.F 1.574). |
| 15 | M. Naveed, Z. Abbas, Q. M. Z. Zia and M. Sajid, Analysis of heat transfer of hydromagnetic flow over a generalized stretching or shrinking sheet with convective boundary condition. Thermal Science, (2019) 23 (6) 3775-3786 (I.F 1.574). |
| 16 | M. Sajid, S. A. Iqbal, K. Mahmood, M. Naveed and M. Y. Khan, An iterative approach to viscoelastic boundary layer flows with heat source/sink and thermal radiation, Thermal Science, (2020) 24 (2B) 1275-1284 (I.F 1.625). |
| 17 | Z. Abbas, M. Naveed, M. Hussain and N. Salamat, Analysis of entropy generation for hydromagnetic flow of viscous fluid embedded in a vertical porous channel with thermal radiation, Alexandria Engeering Journal. 59(5) 3395-3405 (2020) (I. F 3.732). |
| 18 | Z. Abbas, M. Imran and M. Naveed, Time-dependent flow of thermally developed viscous fluid over an oscillatory stretchable curved surface, Alexandria Engeering Journal. 59(6) (2020) 4377-4390 (I. F 3.732). |
| 19 | M. Naveed, S. Ali, J. Hasnain and Z. Abbas, Analysis of Joule heating and Hall current on flow of hybrid nanofluid over a curved stretching surface with melting boundary condition, Heat Transfer Research, 52(5) (2021) 1-16 (I. F. 1.975). |
| 20 | M. Imran, Z. Abbas, M. Naveed and N. Salamat, Impact of Joule heating and melting on time-dependent flow of nanoparticles due to an oscillatory stretchable curved wall with heat generation, Alexandria Engeering Journal. 60(4) (2021) 4097-4113 (I. F 6.626). |
| 21 | M. Naveed, M. Imran and Z. Abbas, Curvilinear flow of Micropolar fluid with Cattaneo-Christov heat flux model due to oscillation of curved srechable sheet, Zeitschrift fur Naturforschung A. (ZNA) (2021) (I.F 1.712). |
| 22 | Z. Abbas, M. Naveed, R. Tabassum and I. Ahmad, Influence of Hall and Joule heating effects on a magnetic nanofluid (Fe3O4) flow due to a rotating disk with generalized slip condition, Heat Transfer 2021 1-20. |
| 23 | M. Naveed, M. Awais, Z. Abbas and M. Sajid, Analysis of Joule heating in a chemically reactive flow of time dependent Carreau-nanofluid over an axisymmetric radially stretched sheet using Cattaneo-Christov heat flux model, Ricerche Di Mathematica, 1-20 (2021) (1.166) |
| 24 | M. Imran, Z. Abbas and M. Naveed, Flow of Eyring-Powell liquid due to oscillatory stretchable curved sheet with modified Fourier and Fick’s model, Applied Mathematics and Mechanics English Edition, 42(10) 1461-1478, (2021) (I. F 3.918). |
| 25 | M. Naveed, M. Imran and Z. Abbas, Analytical Simulation of time dependent electromagneto-hydrodynamic flow of Williamson due to oscillatory curved convectively heated Riga surface with variable thermal conductivity and diffusivity, Journal of Process of Mechanical Engineering Part E (2021) (I.F 1.822). |
| 26 | Z. Abbas, S. Hussain M. Naveed, A. Nadeem and A, Ali, Analysis of generalized slip flow in ferromagnetic nanoparticles in a curved channel using Catttaneo- Christove heat flux theory, Thermal Science, 26(1B) pp. 437-448,(2022) (I. F 1.7). |
| 27 | Z. Abbas, M. Imran and M. Naveed, Impact of equall diffusive chemical reaction on time dependent flow of Casson nanofluid due to oscillatory stretchable curved surface with thermal radiation, Arabian Journal for Science and Engineering. 47 pp. 16059-16078 (2022) (I. F 2.9). |
| 28 | M. Naveed, M. Imran, S. Akhtar, Z. Abbas and S. Ullah, Dynamics of melting heat transfer in thermally developed and chemically reactive flow of Erying-Powell liquid through a curved channel, Ricerche Di Mathematica, (2022) (1.2) |
| 29 | M. Naveed, Z. Abbas and M. Sajid, Effects of slip, porosity and chemical reaction over a curved stretching surface with mass transfer, Journal of Engineering Thermo Physics. (2023) (I.F 2.4). |
| 30 | M. Naveed, Z. Abbas and M. Sajid, Mixed convection flow of a Casson fluid over a curved stretching surface with nonlinear Rosseland thermal radiation, Journal of Engineering Thermo Physics. (2023) (I.F 2.4) |
| 31 | M. Imran, M. Naveed, B. Iftikhar and Z. Abbas, Heat transfer analysis in curvilinear flow hybrid nanoliquid across a curved oscillatory stretched surface with nonlinear thermal radiation, ZAMM, Journal of Applied Mathematics and Mechanics (2023) (I.F 2.3) |
| 32 | M. Naveed, M. Imran and S. Gul, Heat transfer analysis in hydromagnetic flow of couple stress in presence of homogeneous and hetrogeneosus chemical reactions over a porous oscillatory stretchable sheet, Advances in Mechanical Engineering 15(2) (2023) (I.F 2.1) |
| 33 | M. Imran, M. Naveed and Z. Abbas, Dynamics of Soret and Dufour effects on oscillatory flow of couple stress fluid due to stretchable curved surface, Advances in Mechanical Engineering 15(2) (2023) (I.F 2.1) |
| 34 | M. Naveed, Analysis of entropy generation of a chemically reactive nanofluid by using Joule heating effect for the Blasius flow on a curved surface, Chemical Physics Letter 15(2) (2023) (I.F 2.8). |
| 35 | M. Imran, M. Naveed, Analysis of thermophoretic and brownian diffusions in hydromagnetic curvilinear flow of carreau nanofluid with activation energy and heat generation. Results in Engineering, 24, 103114 (2024). |
| 36 | M. Naveed, M. Imran, T. Asghar and Z. Abbas, Z. Transport mechanism in chemically reactive hybrid nanofluid flow containing gyrotactic micro-organisms over a curved oscillatory surface. Applied Mathematics and Mechanics, 46(1) (2025) 177-192. |
| 37 | M. Naveed, M. Imran, and F. Khadim, Dynamics of chemical reactions and temperature-dependent thermal conductivity in a viscous fluid over an oscillating curved surface. Science Progress, 108(2), (2025) 00368504251343498 |
| 38 | M. Imran, M. Naveed, and M. Waheed Rasheed, Analysis of heat transfer in magnetized Williamson fluid over a porous curved oscillating surface: Entropy generation. International Journal of Geometric Methods in Modern Physics, 22(11) 2550087 (2025). |
| 39 | M. Imran, M. Naveed, M. Y. Rafiq, and Z. Abbas. Bio-convective flow of gyrotactic microorganisms in nanofluid through a curved oscillatory channel with CattaneoChristov double diffusion theory. Chinese Physics B (2025). |
| 40 | M. Naveed, M. Imran, and Z. Abbas. Effect of Chemical Reaction on Bioconvective Flow of Gyrotactic Micro-organisms in Hybrid Nanofluid on a Curved Oscillating Surface with Thermal Radiation. Arabian Journal for Science and Engineering, 1-20 (2025). |
| 41 | M. Naveed, M. Imran and M.Majeed, Analysis of Newtonian and Joule heating in a bioconvective Williamson nanofluid flow with gyrotactic microorganisms incorporating modified forms of Fourier’s and Fick’s laws. (2026) Scientia Iranica. |
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