| 1 | Entropy production on couple-stress hybrid nanofluid flow in a rocket engine nozzle with non-Fourier’s and non-Fick’s law | 5.3 | 17 | Citations (PDF) |
| 2 | On the Non‐Fourier’s Heat and Non‐Fick’s Mass Flux for the Quadratic Convection Flow of a Couple Stress Nanofluid with Wu’s Slip | 1.0 | 1 | Citations (PDF) |
| 3 | Cluster Head Selection for the Internet of Things Using a Sandpiper Optimization Algorithm (SOA) | 1.1 | 19 | Citations (PDF) |
| 4 | Nonlinear convection unsteady flow of electro-magnetohydrodynamic Sutterby hybrid nanofluid in the stagnation zone of a spinning sphere | 4.2 | 8 | Citations (PDF) |
| 5 | Genetic Programming-Based Feature Selection for Emotion Classification Using EEG Signal | 1.8 | 24 | Citations (PDF) |
| 6 | Entropy generation analysis of three dimensional mixed convection flow of couple stress nanofluid with non-Fourier’s heat and non-Fick’s mass flux model | 6.5 | 16 | Citations (PDF) |
| 7 | CloudConsumerism: A Consumer-Centric Ranking Model for Efficient Service Mapping in Cloud | 0.8 | 0 | Citations (PDF) |
| 8 | Personality Prediction with Hybrid Genetic Programming using Portable EEG Device | 1.3 | 4 | Citations (PDF) |
| 9 | Modeling and simulation of hybrid Casson nanofluid mixed convection in a partly heated trapezoidal enclosure | 7.0 | 31 | Citations (PDF) |
| 10 | A Machine Learning and Deep Learning Approach for Recognizing Handwritten Digits | 1.3 | 3 | Citations (PDF) |
| 11 | Tree-Based and Machine Learning Algorithm Analysis for Breast Cancer Classification | 1.3 | 17 | Citations (PDF) |
| 12 | Next-Generation Optimization Models and Algorithms in Cloud and Fog Computing Virtualization Security: The Present State and Future | 0.9 | 4 | Citations (PDF) |
| 13 | Optimization of Pesticides Spray on Crops in Agriculture using Machine Learning | 1.3 | 27 | Citations (PDF) |
| 14 | Solutions of Three Dimensional Nonlinear Klein-Gordon Equations by Using Quadruple Laplace Transform | 0.7 | 2 | Citations (PDF) |
| 15 | Mixed Convection Heat Transfer of a Hybrid Nanofluid in a Trapezoidal Prism with an Adiabatic Circular Cylinder | 1.0 | 7 | Citations (PDF) |
| 16 | Entropy generation in radiative magneto-hydrodynamic mixed convective flow of viscoelastic hybrid nanofluid over a spinning disk | 3.5 | 25 | Citations (PDF) |
| 17 | MHD nonlinear natural convection flow of a micropolar nanofluid past a nonisothermal rotating disk | 2.5 | 6 | Citations (PDF) |
| 18 | Viscous dissipation effect on mixed convective heat transfer of MHD flow of Williamson nanofluid over a stretching cylinder in the presence of variable thermal conductivity and chemical reaction | 2.5 | 15 | Citations (PDF) |
| 19 | Mixed convection hybrid nanofluids flow of MWCNTs–Al<sub>2</sub>O<sub>3</sub>/engine oil over a spinning cone with variable viscosity and thermal conductivity | 2.5 | 18 | Citations (PDF) |
| 20 | Finite element analysis of mixed convection flow in a trapezoidal cavity with non-uniform temperature | 3.5 | 26 | Citations (PDF) |
| 21 | Effects of Second-Order Slip Flow and Variable Viscosity on Natural Convection Flow of <math xmlns="http://www.w3.org/1998/Math/MathML" id="M1">
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| 1.0 | 34 | Citations (PDF) |
| 22 | Hall and ion‐slip effects on mixed convection flow of Williamson nanofluid over a nonlinear porous stretching sheet with variable thermal conductivity | 2.5 | 10 | Citations (PDF) |
| 23 | Neural Network Method for Solving Time-Fractional Telegraph Equation | 1.0 | 9 | Citations (PDF) |
| 24 | Analysis of flow of visco-elastic nanofluid with third order slips flow condition, Cattaneo-Christov heat and mass diffusion model | 5.4 | 21 | Citations (PDF) |
| 25 | Dynamics of flow in trapezoidal enclosure having a heated inner circular cylinder containing Casson nanofluid | 3.5 | 19 | Citations (PDF) |
| 26 | Mixed convection flow of viscoelastic Ag-Al<sub>2</sub>O<sub>3</sub>
/water hybrid nanofluid past a rotating disk | 2.6 | 44 | Citations (PDF) |
| 27 | Nonlinear usual convection flow of couple stress micropolar nanofluids over isothermal sphere with non‐Fourier's heat and non‐Fick's mass fluxes under high classify slip states | 2.5 | 0 | Citations (PDF) |
| 28 | EEG‐Based Personality Prediction Using Fast Fourier Transform and DeepLSTM Model | 1.3 | 28 | Citations (PDF) |
| 29 | Thin Film Flow of Tangent Hyperbolic Fluid with Nonlinear Mixed Convection Flow and Entropy Generation | 1.0 | 7 | Citations (PDF) |
| 30 | Numerical solution of micropolar nanofluids with Soret, Dufor effects and multiple slip conditions | 1.6 | 19 | Citations (PDF) |
| 31 | Finite element method solution of mixed convection flow of Williamson nanofluid past a radially stretching sheet | 2.5 | 16 | Citations (PDF) |
| 32 | The Investigation of MHD Williamson Nanofluid over Stretching Cylinder with the Effect of Activation Energy | 0.9 | 35 | Citations (PDF) |
| 33 | Finite element solution of nonlinear convective flow of Oldroyd-B fluid with Cattaneo-Christov heat flux model over nonlinear stretching sheet with heat generation or absorption | 5.4 | 61 | Citations (PDF) |
| 34 | Hall and Ion Slip Effects on Mixed Convection Flow of Eyring-Powell Nanofluid over a Stretching Surface | 0.9 | 8 | Citations (PDF) |
| 35 | Viscous dissipation effect on Williamson nanofluid over stretching/shrinking wedge with thermal radiation and chemical reaction | 1.6 | 31 | Citations (PDF) |
| 36 | MHD Slip Flow of CNT-Ethylene Glycol Nanofluid due to a Stretchable Rotating Disk with Cattaneo–Christov Heat Flux Model | 1.0 | 54 | Citations (PDF) |
| 37 | Double Stratified Mixed Convective Flow of Couple Stress Nanofluid past Inclined Stretching Cylinder Using Cattaneo-Christov Heat and Mass Flux Model | 0.9 | 3 | Citations (PDF) |
| 38 | Spectral relaxation method analysis of Casson nanofluid flow over stretching cylinder with variable thermal conductivity and Cattaneo–Christov heat flux model | 2.5 | 26 | Citations (PDF) |
| 39 | MHD Nonlinear Mixed Convection Flow of Micropolar Nanofluid over Nonisothermal Sphere | 1.0 | 7 | Citations (PDF) |
| 40 | Nonlinear mixed convection flow of a tangent hyperbolic fluid with activation energy | 2.5 | 30 | Citations (PDF) |
| 41 | Melting and viscous dissipation effect on upper‐convected Maxwell and Williamson nanofluid | 1.8 | 13 | Citations (PDF) |
| 42 | Three-Dimensional MHD Mixed Convection Flow of Casson Nanofluid with Hall and Ion Slip Effects | 1.0 | 27 | Citations (PDF) |
| 43 | Nonlinear Convection Flow of Micropolar Nanofluid due to a Rotating Disk with Multiple Slip Flow | 1.0 | 20 | Citations (PDF) |
| 44 | MHD slip flow of upper-convected Maxwell nanofluid over a stretching sheet with chemical reaction | 1.0 | 77 | Citations (PDF) |
| 45 | Mixed convection flow of a Maxwell nanofluid with Hall and ion‐slip impacts employing the spectral relaxation method | 2.5 | 10 | Citations (PDF) |
| 46 | Dusty Nanofluid Past a Centrifugally Stretching Surface | 1.0 | 10 | Citations (PDF) |
| 47 | Nonlinear convective boundary layer flow of micropolar‐couple stress nanofluids past permeable stretching sheet using Cattaneo‐Christov heat and mass flux model | 2.5 | 11 | Citations (PDF) |
| 48 | Magnetohydrodynamic(MHD) Boundary Layer Flow of Eyring-Powell Nanofluid Past Stretching Cylinder With Cattaneo-Christov Heat Flux Model | 1.4 | 36 | Citations (PDF) |
| 49 | Finite Element Method Solution of Boundary Layer Flow of Powell-Eyring Nanofluid over a Nonlinear Stretching Surface | 1.1 | 31 | Citations (PDF) |
| 50 | Magnetohydrodynamic flow of a nanofluid due to a non‐linearly curved stretching surface with high order slip flow | 3.8 | 11 | Citations (PDF) |
| 51 | Tangent hyperbolic nanofluid with mixed convection flow: An application of improved Fourier and Fick's diffusion model | 3.8 | 15 | Citations (PDF) |
| 52 | Finite element analysis of couple stress micropolar nanofluid flow by non‐Fourier's law heat flux model past stretching surface | 3.8 | 7 | Citations (PDF) |
| 53 | Nonlinear convection flow of Williamson nanofluid past a radially stretching surface | 1.2 | 53 | Citations (PDF) |
| 54 | Magnetohydrodynamic (MHD) Boundary Layer Flow Past a Wedge with Heat Transfer and Viscous Effects of Nanofluid Embedded in Porous Media | 1.0 | 62 | Citations (PDF) |
| 55 | Mixed convection flow of nanofluid with Hall and ion-slip effects using spectral relaxation method | 1.0 | 19 | Citations (PDF) |
| 56 | Non-linear convection flow of micro polar nanofluid past an isothermal sphere | 1.6 | 9 | Citations (PDF) |
| 57 | Mixed convection flow of Oldroyd-B nano fluid with Cattaneo-Christov heat and mass flux model with third order slip | 1.2 | 18 | Citations (PDF) |
| 58 | Magnetohydrodynamic Flow of Three-Dimensional Rotating Flow of Sisko Fluid Past Stretching Surface with Nanoparticles | 2.2 | 5 | Citations (PDF) |
| 59 | The Effect of Induced Magnetic Field on Boundary Layer Flow and Heat Transfer of Carreau Fluid with Nanoparticles | 2.2 | 1 | Citations (PDF) |
| 60 | Three dimensional rotating flow of Powell-Eyring nanofluid with non-Fourier’s heat flux and non-Fick’s mass flux theory | 4.2 | 37 | Citations (PDF) |
| 61 | Effects of Second Order Slip Boundary Condition on Magnetohydrodynmaics Boundary Layer Flow and Heat Transfer of Nanofluid Over a Stretching Sheet | 0.1 | 0 | Citations (PDF) |
| 62 | Magnetohydrodynamics (MHD) flow of a tangent hyperbolic fluid with nanoparticles past a stretching sheet with second order slip and convective boundary condition | 4.2 | 112 | Citations (PDF) |
| 63 | Magnetohydrodynamic (MHD) boundary layer stagnation point flow and heat transfer of a nanofluid past a stretching sheet with melting | 5.4 | 54 | Citations (PDF) |
| 64 | Magnetohydrodynamic stagnation point flow of a power-law nanofluid towards a convectively heated stretching sheet with slip | 2.3 | 60 | Citations (PDF) |
| 65 | The effect of induced magnetic field and convective boundary condition on MHD stagnation point flow and heat transfer of upper-convected Maxwell fluid in the presence of nanoparticle past a stretching sheet | 5.4 | 67 | Citations (PDF) |
| 66 | Magnetohydrodynamic Stagnation Point Flow and Heat Transfer of Casson Nanofluid Past a Stretching Sheet with Slip and Convective Boundary Condition | 1.3 | 93 | Citations (PDF) |
| 67 | MAGNETOHYDRODYNAMIC(MHD) STAGNATION POINT FLOW AND HEAT TRANSFER OF UPPER-CONVECTED MAXWELL FLUID PAST A STRETCHING SHEET IN THE PRESENCE OF NANOPARTICLES WITH CONVECTIVE HEATING | 0.4 | 7 | Citations (PDF) |
| 68 | Nonlinear radiative heat transfer in magnetohydrodynamic (MHD) stagnation point flow of nanofluid past a stretching sheet with convective boundary condition | 5.4 | 31 | Citations (PDF) |
| 69 | The Effect of Induced Magnetic Field and Convective Boundary Condition on MHD Stagnation Point Flow and Heat Transfer of Nanofluid Past a Stretching Sheet | 2.1 | 18 | Citations (PDF) |
| 70 | MHD Boundary Layer Flow and Heat Transfer Due to a Nanofluid Over an Exponentially Stretching Non-Isothermal Sheet | 2.2 | 5 | Citations (PDF) |
| 71 | Double-Diffusive in Mixed Convection and MHD Stagnation Point Flow of Nanofluid Over a Stretching Sheet | 2.2 | 29 | Citations (PDF) |
| 72 | Double-Diffusive in MHD Stagnation Point Flow and Heat Transfer of Nanofluid Over a Stretching Sheet | 2.2 | 4 | Citations (PDF) |
| 73 | Magnetohydrodynamic Boundary Layer Flow and Heat Transfer of a Nanofluid Over Non-Isothermal Stretching Sheet | 1.6 | 36 | Citations (PDF) |
| 74 | Unsteady <scp>MHD</scp> Mixed Convective Boundary‐Layer Slip Flow and Heat Transfer with Thermal Radiation and Viscous Dissipation | 3.8 | 4 | Citations (PDF) |
| 75 | The effect of double stratification on boundary-layer flow and heat transfer of nanofluid over a vertical plate | 2.7 | 241 | Citations (PDF) |
| 76 | MHD stagnation point flow and heat transfer due to nanofluid towards a stretching sheet | 5.6 | 260 | Citations (PDF) |
| 77 | MHD boundary layer flow and heat transfer of a nanofluid past a permeable stretching sheet with velocity, thermal and solutal slip boundary conditions | 2.7 | 315 | Citations (PDF) |
| 78 | Boundary-Layer Flow and Heat Transfer of Nanofluid Over a Vertical Plate With Convective Surface Boundary Condition | 1.9 | 35 | Citations (PDF) |
| 79 | Unsteady MHD boundary-layer flow and heat transfer due to stretching sheet in the presence of heat source or sink | 2.7 | 46 | Citations (PDF) |
