[1] | D. S. Sankar and K. Hemalatha, Pulsatile flow of Herschel-Bulkley fluid through stenosed arteries, International Journal of Non-Linear Mechanics 41 (2006) 979-990 (Elsevier–Sciencedirect) (SCI) (2010 Impact factor: 1.388). |
[2] | D. S. Sankar and K. Hemalatha, Non-Linear mathematical models for blood flow through tapered tubes, Applied Mathematics and Computation 188 (2007) 567-582 (Elsevier–Sciencedirect Journal)(SCI) (2010 Impact factor: 1.534). |
[3] | D. S. Sankar and K. Hemalatha, Pulsatile flow of Herschel-Bulkley fluid through catheterized arteries-A mathematical model, Applied Mathematical Modeling 31 (2007) 1497-1517 (Elsevier-Sciencedirect) (SCI) (2010 Impact factor: 1.371). |
[4] | D. S. Sankar and K. Hemalatha, A non-Newtonian fluid flow model for blood flow through a catheterized artery-Steady flow, Applied Mathematical Modeling 31 (2007) 1847-1864 (Elsevier-Sciencedirect) (SCI) (2010 Impact factor: 1.371). |
[5] | D. S. Sankar and Usik Lee, Two-phase Non-linear Model for the Flow through Stenosed Blood Vessels, Journal of Mechanical Science and Technology 21 (2007) 678-689 (Springer Publication) (SCI-E) (2010 Impact factor: 0.41). |
[6] | D. S. Sankar and Usik Lee, Two-fluid non-linear model for flow in catheterized blood vessels, International Journal of Non-Linear Mechanics 43 (2008) 622-631 (Elsevier-Sciencedirect) (SCI) (2010 Impact factor: 1.388). |
[7] | D. S. Sankar and Usik Lee, Two-Fluid Herschel–Bulkley Model for Blood Flow in Catheterized Arteries, Journal of Mechanical Science and Technology 22 (2008) 1008-1018 (Springer Publication) (SCI-E) (2010 Impact factor: 0.41). |
[8] | D. S. Sankar, Two-fluid flow of blood through asymmetric and axisymmetric stenosed narrow arteries, International Journal of Nonlinear Sciences and Numerical Simulations 10 (2009) 1425-1441 (2010 Impact factor: 3.1) (Ranked No: 1 in Applied Mathematics, Mechanical Engineering, Engineering Interdiscipline). |
[9] | D. S. Sankar and Usik Lee, Two-fluid non-Newtonian models for blood flow in catheterized arteries-A comparative study, Journal of Mechanical Science and Technology 23 (2009) 2444-2455(Springer Publication) (2010 Impact factor: 0.41). |
[10] | D. S. Sankar and Ahmad Izani Mohamed Ismail, Two-fluid mathematical models for blood flow in stenosed arteries: a comparative study, Boundary Value Problems, Vol. 2009 (2009), Article ID 568657. doi:10.1155/2009/568657 (Hindawi Publications) (2010 Impact factor: 1.047). |
[11] | D. S. Sankar and Usik Lee, Two-fluid nonlinear mathematical model for pulsatile blood flow through catheterized arteries, Journal of Mechanical Science and Technology 23 (2009) 1650-1669 (Springer Publication) (2010 Impact factor: 0.41). |
[12] | D. S. Sankar, A two-fluid model for pulsatile flow in catheterized blood vessels, International Journal of Non-Linear Mechanics 44 (2009) 337-351 (Elsevier-Sciencedirect) (SCI) (2010 Impact factor: 1.388). |
[13] | D. S. Sankar and Usik Lee, Mathematical modeling of pulsatile flow of non-Newtonian fluid in stenosed arteries, Communications in Nonlinear Science and Numerical Simulation 14(2009) 2971-2981 (Elsevier-Sciencedirect) (SCI-E) (2010 Impact factor: 2.697). |
[14] | D. S. Sankar and Usik Lee, Pulsatile flow of two-fluid nonlinear models for blood flow through catheterized arteries-A comparative study, Mathematical problems in Engineering Volume 2010 (2010), Article ID 121757, 21 pages, doi:10.1155/2010/121757 (2010 Impact factor: 0.689). |
[15] | D. S. Sankar and Usik Lee, Two-fluid Casson model for pulsatile blood flow through stenosed arteries-A mathematical model, Communications in Nonlinear Science and Numerical Simulation 15 (2010) 2086-2097 (Elsevier-Sciencedirect)(SCI-E) (2010 Impact factor: 2.697). |
[16] | D. S. Sankar and A. I. M. Ismail, Effects of periodic body acceleration in blood flow through stenosed arteries-a theoretical model, International Journal of Nonlinear Sciences and Numerical Simulations 11 (2010) 243-257 (2010 Impact factor: 3.1) (Ranked No: 1 in Applied Mathematics, Mechanical Engineering, Engineering Interdiscipline). |
[17] | D. S. Sankar, Perturbation analysis for blood flow in stenosed arteries under body acceleration, International Journal of Nonlinear Sciences and Numerical simulations 11 (2010) 631-653 (2010 Impact factor: 3.1) (Ranked No: 1 in Applied Mathematics, Mechanical Engineering, Engineering Interdiscipline). |
[18] | D. S. Sankar, Pulsatile flow of a two-fluid model for blood flow through arterial stenosis, Mathematical Problems in Engineering Vol. 2010, Article Id: 465835, 26 pages, doi. 10.1155/2010/465835 (2010 Impact factor: 0.689). |
[19] | D. S. Sankar, Joan Goh, Ahmad Izani Mohamed Ismail, FDM analysis for blood flow through stenosed tapered arteries, Boundary Value Problems Vol. 2010, Article ID: 917067, 16 pages, doi: 10.1155/2010/917067 (2010 Impact factor: 1.047). |
[20] | Naeem Faraz, Yasir Khan, D. S. Sankar, Decomposition-transform method for fractional Differential Equations, International Journal of Nonlinear Sciences and Numerical Simulations 11 (2010) 305-310 (2010 Impact factor: 3.1) (Ranked No: 1 in Applied Mathematics, Mechanical Engineering, Engineering Interdiscipline). |
[21] | D. S. Sankar, Two-phase non-linear model for blood flow in asymmetric and axisymmetric stenosed arteries, International Journal of Non-Linear Mechanics 46 (2011) 296-305 (SCI) (2010 Impact factor: 1.388). |
[22] | D. S. Sankar, Two-fluid nonlinear mathematical model for pulsatile blood flow through stenosed arteries, Bulletin of the Malaysian Mathematical Sciences Society (article in press) (SCI-E) (2010 Impact factor: 0.696). |
[23] | D. S. Sankar, Usik Lee, Nonlinear mathematical analysis for blood flow in a constricted artery under periodic body acceleration, Communications in Nonlinear Sciences and Numerical Simulations 16 (2011) 4390-4402 (SCI-E) (2010 Impact factor: 2.697). |
[24] | D. S. Sankar, Usik Lee, FDM analysis for MHD flow of a non-Newtonian fluid for blood flow in stenosed arteries, Journal of Mechanical Sciences and Technology (article in press) (SCI-E) (2010 Impact factor: 0.41). |
[25] | Pulsatile flow of Herschel-Bulkley fluid through stenosed arteries, International Journal of Non-Linear Mechanics Vol. 41, No.8 (2006), 979–990 (October-December 2006) |
[26] | A non-Newtonian fluid flow model for blood flow through a catheterized artery-Steady flow, Applied Mathematical Modeling, Vol. 31, No.9 (2007) 1847-1864 (April-June 2007 & July-September 2007). |
[27] | Two-fluid non-linear model for flow in catheterized blood vessels, International Journal of Non-Linear Mechanics, Vol. 43 (2008) 622-631 (July-September 2008). |
[28] | A two-fluid model for pulsatile flow in catheterized blood vessels, International Journal of Non-Linear Mechanics, Vol. 44 (2009) 337-351 (April-June 2009). |