Adila Aida Azahar

 

Adila

Dr Adila Aida Azahar
PhD Computing, University of Leeds.
MSc Mathematics, Universiti Sains Malaysia.
BSc Mathematics, Universiti Sains Malaysia.

Email: adilaazahar@usm.my| Room No.: 037 | Phone: 04-6533641

ORCID: https://orcid.org/0000-0001-5092-8681

Profile

Overview:

Dr. Adila started her career as academician in the School of Mathematical Sciences in October 2020 after graduating her PhD from University of Leeds in Computing. 

Her research interests are related to Computational Fluid Dynamics and Mathematical Modelling. Her work involves the numerical simulation for non-Newtonian fluid (viscoelastic - polymer melt) behavior in a geometrical flow.

Selected publications:

  1. A. A. Azahar, O. G. Harlen, and M. A. Walkley. Modelling contraction flows of bi-disperse polymer blends using Rolie-Poly and Rolie-Double-Poly equations. Korea-Australia Rheology Journal, 31 (4), 203-209, 2019.
  2. N. S. S. Ali, A. Ramli, A. Azahar, and N. A. Rahman. Comparing reliability of training error and bootstrap error for least square fitting on noisy data.  In AIP Conference Proceedings (Vol. 1830, No. 1, p. 080004), 2017.

Research Interest:

  1. Computational Fluid Dynamics
  2. Mathematical Modelling
  3. Rheology
  4. Polymer blend 
  5. Geometrical flow and flow bifurcations

  TubeTube theory representation for a polymer chain surrounded by the other polymer chains

Teaching & Supervision

Teaching

No. Course Code Course Name
1              MAA 101/4 Calculus for Science Student I

 

I am looking for motivated students who are interested in doing research in the Computational Fluid Dynamic and Mathematical Modelling. In particular those who are interested in exploring the rheological behavior of the molten polymer in geometrical flow. Get in touch with me via the following email address adilaazahar@usm.my for further details. 

Research

Research Grants
  1. -
Possible Research Title
  1. The flow bifurcation for shear-thinning fluid in a cross-slot with hyperbolic corner.
  2. The numerical simulation for bidisperse Rolie-Double-Poly model with the log-conformation approach in a geometrical flow at high Weissenberg number using OpenFOAM.
  3. Numerical simulation for polydisperse Rolie-Double-Poly equation. 

Published papers:

  1. A. A. Azahar, O. G. Harlen, and M. A. Walkley. Modelling contraction flows of bi-disperse polymer blends using Rolie-Poly and Rolie-Double-Poly equations. Korea-Australia Rheology Journal, 31 (4), 203-209, 2019.

Conference Proceedings:

  1. N. S. S. Ali, A. Ramli, A. Azahar, and N. A. Rahman. Comparing reliability of training error and bootstrap error for least square fitting on noisy data.  In AIP Conference Proceedings (Vol. 1830, No. 1, p. 080004), 2017.

 

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