Author(s)

Title of Paper

Journal

Volume (No.)

Page numbers

Year

R. Ponalagusamy and R. Tamil Selvi

A Study on TwoLayered Model (CassonNewtonian) for Blood Flow Through an Arterial Stenosis: Axially Variable Slip Velocity at the Wall

Journal of The Franklin Institute

348

23082321

2011

R. Ponalagusamy and R. Tamil Selvi

Blood Flow Through an Arterial Stenosis:New Formula for Computing Peripheral Plasma Layer Thickness

International Journal of BioScience and BioTechnology

3

2738

2011

R.Ponalagusamy, P.J.A.Alphonse and M.Chandru

Development of new FifthOrder Fifth Stage Runge Kutta Method based on Heronian Mean

International Journal of Engineering Science, Advanced Computing and BioTechnology

2

162197

2011

R.Ponalagusamy, R.Narayanasamy and K.R.Subramanian

Sheet Metals Forming Limit Stress and Strain Prediction based on new generalized yield criterion

International
Journal of Computational Materials Science and Surface Engineering

4

311325

2011

R.Ponalagusamy and S.Senthilkumar

Investigation on TimeMultiplexing Cellular Neural Network Simulation by RKAHeM(4,4) Technique

International Journal of Advanced
Intelligence Paradigms

3

4366

2011

R.Ponalagusamy, R.Tamil Selvi and A.K.Banerjee

Mathematical Model of Pulsatile Flow of Non Newtonian Fluid in Tubes of Varying CrossSections and Its Implications to Blood Flow

Journal of The Franklin Institute

349

16811698

2012

R. Ponalagusamy

Mathematical Analysis on Effect of NonNewtonian Behaviour of Blood on Optimal Geometry of Microvascular Bifurcation System

Journal of The Franklin Institute

349

28612874

2012

R.Ponalagusamy and K.Ponnammal

Local Truncation Error for the Parallel RungeKutta Fifth Order Methods

Information Technology Journal

11

11411153

2012

R.Ponalagusamy, E.Kannan and Michael Arock

Formation of Machine Cells in Cellular Manufacturing System Using Linear Array with a Reconfigurable Pipelined Bus System

International Journal of Mathematics and Engineering with Computers

3

1727

2012

Geetha Sivaraman, V. Lakshmana Gomathi Nayagam and R. Ponalagusamy

Intuitionist Fuzzy Interval Information System

International Journal of Computer Theory and
Engineering

4

459461

2012

R. Ponalagusamy and R.Tamil Selvi

Blood Flow in Stenosed Arteries with Radially Variable Viscosity, Peripheral Layer Thickness and Magnetic Field

Meccanica,

48

24272438

2013

R. Ponalagusamy and R. Tamil Selvi

Brief Communications: Twolayered Model (CassonNewtonian) for Blood Flow Through an Arterial Stenosis with Axially Variable Slip Velocity at the Wall

International Journal of Engineering Science, Advanced Computing and BioTechnology

4

7174

2013

K. Velmanirajan, K. Anuradha, A. Syed Abu Thaheer, R. Ponalagusamy and R.Narayanasamy

Statistical Evaluation of Forming Limit Diagram for Annealed Al 1350 Alloy Sheets Using First Order Reliability Method

Applied Mathematical Modelling

38

145167

2014

D. Jeyasimman, R. Narayanasamy, R. Ponalagusamy, V. Anandakrishnan and M. Kamaraj

The Effects of Various Reinforcements on Dry Sliding Wear Behaviour of AA 6061 Nanocomposites

Materials & Design

64

783793

2014

Geetha Sivaraman, V. Lakshmana Gomathi Nayagam and R. Ponalagusamy

A Complete Ranking Of Incomplete Interval Information

Expert Systems with Applications

41

19471954

2014

R. Ponalagusamy and R. Tamil Selvi

Influence of Magnetic Field and Heat Transfer on TwoPhase Fluid Model for Oscillatory Blood Flow in an Arterial Stenosis

Meccanica

50

927943

2015

S. Priyadharshini and R.Ponalagusamy

Biorheological model on Flow of HerschelBulkley Fluid Through a Tapered Arterial Stenosis with Dilatation

Applied Bionics and Biomechanics

2015

115

2015

D. Jeyasimman, K. Sivaprasad, S. Sivasankaran, R. Ponalagusamy, R. Narayanasamy and Vijayakumar Iyer

Microstructural Observation, Consolidation and Mechanical Behaviour of AA 6061 Nanocomposites Reinforced by  AI_{2}O_{3} Nanoparticles

Advanced Powder Technology

26

139148

2015

D. Jeyasimman, R. Narayanasamy and R. Ponalagusamy

Role of Hybrid Reinforcement on Microstructural Observation, Characterization and Consolidation Behavior of AA 6061 Nanocomposite

Advanced Powder Technology

26

11711182

2015

R. Ponalagusamy and K. Ponnammal

A Parallel Fourth Order Rosenbrock Method:
Construction, Analysis and Numerical Comparison

International Journal of Applied Computational Mathematics

1

4568

2015

R. Ponalagusamy

Suspension model for blood flow through a catheterized arterial stenosis with peripheral layer of plasma free from cells

The European Physical Journal Plus

131

185(117)

2016

R. Ponalagusamy

Particulate Suspension Jeffrey Fluid flow in a Stenosed artery with a Particlefree Plasma Layer near the Wall

KoreaAustralia Rheology Journal

28

217227

2016

R. Ponalagusamy

Corrigendum to A biomechanical approach to study the effect of body acceleration and slip velocity through stenotic artery [Applied Mathematics and Computation, 261(2015) 148155]

Applied Mathematics and Computation

301

115116

2017

R. Ponalagusamy

Erratum to: Suspension model for blood flow through a catheterized arterial stenosis with peripheral layer of plasma free from cells

The European Physical Journal Plus

132

148

2017

R. Ponalagusamy

TwoFluid Model for Blood Flow through a Tapered Arterial Stenosis: Effect of Nonzero Couple Stress Boundary Condition at the Interface

Int. J. Appl. Comput. Math.

3

807824

2017

R. Ponalagusamy and S. Priyadharshini

Nonlinear Model on Pulsatile Flow of Blood through a Porous Bifurcated Arterial Stenosis in the presence of Magnetic Field and Periodic Body Acceleration

Computer Methods and Programs in Biomedicine

142

3141

2017

R. Ponalagusamy

A TwoLayered Suspension(ParticleFluid) Model for NonNewtonian Fluid Flow in a Catheterized Arterial Stenosis with Slip Condition at the wall of Stenosed Artery

KoreaAustralia Rheology Journal

29

87100

2017







R. Ponalagusamy and S. Priyadharshini

Numerical Modelling on Pulsatile Flow of Casson Nanofluid through an inclined artery with stenosis and tapering under the influence of magnetic field and periodic body acceleration

KoreaAustralia Rheology Journal

29

303316

2017

S. Priyadharshini and R. Ponalagusamy

Computational Model on Pulsatile flow of Blood Through a Tapered Arterial Stenosis with Radially Variable Viscosity and Magnetic Field

Sadhana

42

19011913

2017

R. Ponalagusamy and S. Priyadharshini

Couple Stress fluid model for pulsatile flow of blood in a porous tapered arterial stenosis under magnetic field and periodic body acceleration

Journal of Mechanics in Medicine and Biology

17

1750109
(29 pages)

2017

R. Ponalagusamy and S. Priyadharshini

Numerical Investigation on Two fluid model (MicropolarNewtonian) for Pulsatile flow of blood in a Tapered Arterial Stenosis with radially variable Magnetic field and Core fluid viscosity

Computational and Applied Mathematics

37

719743

2018

R. Ponalagusamy and S. Priyadharshini

Pulsatile MHD Flow of a Casson fluid through a
porous bifurcated arterial stenosis under periodic body acceleration

Applied Mathematics and Computation

333

325343

2018

R. Ponalagusamy

Mathematical analysis of flow of nonNewtonian fluid due to metachronal beating of cilia in a tube and its physiological applications

Applied Mathematics and Computation

337

545561

2018

S. Priyadharshini and R. Ponalagusamy

An Unsteady flow of Magnetic Nanoparticles as Drug Carrier suspended in Micropolar fluid through a porous tapered arterial stenosis under nonuniform magnetic field and periodic body acceleration

Computational and Applied Mathematics

37

42594280

2018

S. Priyadharshini and R. Ponalagusamy

A numerical study on unsteady flow of Herschel Bulkley Nanofluid through an inclined artery with body acceleration and magnetic field

Int. J. Appl. Comput. Math.

5(6)

126

2019

R. Padma, R. Tamil Selvi and R. Ponalagusamy

Eﬀects of slip and magnetic ﬁeld on
pulsatile ﬂow of Jeﬀrey ﬂuid with magnetic nano particles in a stenosed artery

The European Physical Journal Plus, 134(2019): 221(Pages 115).

134
Article no. 221

115

2019

R. Ponalagusamy and S. Priyadharshini

Mathematical modelling for pulsatile flow of
Casson fluid along with magnetic nanoparticles in a stenosed artery under external
magnetic field and body acceleration

Neural Computing and Applications

31

813826

2019

R. Ponalagusamy and Ramakrishna Manchi

A fourlayered model for flow of nonNewtonian fluid in an artery with mild stenosis

Sadhana

44
Article No. 158

114

2019

R. Ponalagusamy and S. Priyadharshini

A numerical model on pulsatile Flow of magnetic nanoparticles as drug carrier suspended in HerschelBulkley fluid through an
arterial stenosis under external magnetic field and body force

International Journal of Computer Mathematics

96

17631786

2019

R. Padma, R. Ponalagusamy and R. Tamil Selvi

Mathematical modeling of
electro hydrodynamic nonNewtonian ﬂuid ﬂow through tapered arterial stenosis with periodic body acceleration and applied magnetic ﬁeld

Applied Mathematics and Computation

362
Article No. 124453

124

2019

R. Ponalagusamy and Ramakrishna Manchi

A study on twolayered (K.LNewtonian) model of blood flow in an artery with six types of mild stenosis

Applied Mathematics and Computation

367
Article No. 124767

122

2020

R. Ponalagusamy and Ramakrishna Manchi

Particlefluid two phase modelling of
electromagneto hydrodynamic pulsatile flow of Jeffrey fluid in a constricted tube under periodic body acceleration

European Journal of MechanicsB/Fluids

81

7692

2020

R. Padma, R. Ponalagusamy and R. Tamil Selvi

Corrigendum to “Mathematical modeling of electro hydrodynamic nonNewtonian ﬂuid ﬂow through tapered arterial stenosis with periodic body acceleration and applied magnetic ﬁeld” [Applied Mathematics and Computation, 362(2019) 124453]

Applied Mathematics and Computation

373
Article No. 125031

13

2020

R. Ponalagusamy and Ramakrishna Manchi

Mathematical modelling of electromagneto hydrodynamic pulsatile flow of an elastico viscous fluid through an inclined porous tapered arterial stenosis

Mathematics in Engineering, Science and Aerospace (MESA)

11

237254

2020

Kamalika Roy, R. Ponalagusamy and P.V.S.N. Murthy

The effect of double diffusion and viscous dissipation on the oscillatory convection in a viscoelastic fluid saturated porous layer

Physics of Fluids

32
Article No. 094108

115

2020

A. K. Roy, A.K. Saha,
R. Ponalagusamy and S. Debnath

Mathematical model on magneto
hydrodynamic dispersion in a porous medium under the influence of bulk chemical reaction

KoreaAustralia Rheology Journal

32

287299

2020

R. Ponalagusamy

Effects of magnetic force and nonNewtonian characteristics on squeeze film bearings

AsiaPacific Journal of Chemical Engineering

15
e2510

114

2020

R. Ponalagusamy and Ramakrishna Manchi

Biorheological Model on Pulsatile Flow of Blood (KL fluid) through Flexible Stenotic Tapered Blood Vessels

Int. J. Appl. Comput.
Math.

7
Article No. 13

128

2021

R. Ponalagusamy and Ramakrishna Manchi

Mathematical Study on TwoFluid Model for
Flow of KL Fluid in a Stenosed Artery with Porous Wall

SN Applied Sciences

3
Article No. 50

121

2021

Ramakrishna Manchi and R. Ponalagusamy

Modeling of pulsatile EMHD flow of Aublood
in an inclined porous tapered atherosclerotic vessel under periodic body acceleration

Achieve of Applied Mechanics

91

34213447

2021

R. Padma, R. Tamil Selvi and R. Ponalagusamy

Analysis of MHD pulsatile flow of Jeffrey fluid in a diseased inclined tapered porous artery exposed to an inclined magnetic field

Journal of Physics

1850
Article No. 012039

114

2021

R. Tamil Selvi, R. Ponalagusamy and R. Padma

Influence of thermal radiation and
electromagnetic field on the unsteady flow of Jeffrey fluid suspended with magnetic particles
in stenosed tapered porous artery

Int. J. Appl. Comput. Math.

7(6)
Article No. 216

125

2021

R. Ponalagusamy and D. Murugan

Dispersion of a solute in blood flowing through narrow arteries with homogeneous firstorder chemical reaction

Proc. National Academy of Sciences, India Section A: Physical Sciences

91(4)

675680

2021

R. Ponalagusamy and D. Murugan

Impact of electromagnetohydrodynamic nature on
dispersion of solute in the peristaltic mechanism

Journal of Physics

1850
Article No. 012097

112

2021

Ramakrishna Manchi and R. Ponalagusamy

Pulsatile flow of EMHD micropolar hybrid nanofluid in a porous bifurcated artery with an overlapping stenosis in the presence of body
acceleration and Joule heating

Brazilian Journal of Physics

52
Article No. 52

125

2022

R. Ponalagusamy, R. Tamil Selvi and R. Padma

Modeling of pulsatile EMHD flow of non
Newtonian blood with magnetic particles in a tapered stenosed tube: A comparative study of actual and approximated drag force

The European Physical Journal Plus

137
Article No. 230

127

2022

R. Ponalagusamy and D. Murugan

Effect of electromagnetohemodynamic environs on
dispersion of solute in the peristaltic motion through a channel with chemical reaction, wall properties and porous medium

KoreaAustralia Rheology Journal

34

6990

2022

R. Ponalagusamy and D. Murugan

Impact of variable viscosity, chemical reaction and
electroosmotic mechanism on the dispersal of solute through a uniform channel with permeable walls

Int. J. Appl. Comput. Math

8
Article No. 55

125

2022

R. Ponalagusamy, D. Murugan and S. Priyadharshini

Effects of rheology of nonNewtonian
fluid and chemical reaction on a dispersion of a solute and implications to blood flow

Int. J.
Appl. Comput. Math.

8
Article No. 109

112

2022

D. Murugan, Ashis Kumar Roy, R. Ponalagusamy and Anwar Beg

Tracer dispersion due to pulsatile Casson fluid flow in a circular tube with chemical reaction modulated by externally applied electromagnetic fields

Int. J.
Appl. Comput. Math.

8
Article No. 221

123

2022

R. Ponalagusamy and D. Murugan

Transport of a reactive solute in electroosmotic pulsatile flow of nonNewtonian fluid through a circular conduit

Int. J.
Chinese Journal of Physics

Published (Preprint)


2022

R. Ponalagusamy and J. Sangeetha

ElectroOsmotic Effect on Two Immiscible (Conducting–NonConducting) Fluids Flowing in the Porous Channel Under Magnetic Field

Proc. of
the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical
Engineering

Published


2022
