Dr Jiujiang Zhu

Dr Jiujiang ZhuRCUK Academic Fellow in Environmental Fluid Dynamics

E: j.zhu@abertay.ac.uk
T: +44 1382 308611

General Information

Research interests

  • Environmental fluid dynamics: Lattice Boltzmann Model for porous media.
  • Cell-microenvironment interactions
  • Computational systems biology:
    • Biophysical model for epithelial tissue.
    • Agent based model for cell migration.
    • Tensegrity model for living cell.
    • Mathematical models and numerical methods of electrical activity of human atrium.
  • Smart materials and their applications:
    • Thermodynamic constitutive model and numerical simulation of martensite phase transformation in shape memory alloys.
    • Prediction of macroscopic effective properties of nonlinear composite by homogenization methods.

    Selected Publications

    1. Zhu, J.J., Liang, N.G., Cai, M., Liew, K.M., Huang, W.M., Theory of phase transformation and reorientation in single crystalline shape memory alloys, Smart Materials and Structures, Vol. 17, 2008, 015041.
    2. Huang, W.M. and Zhu, J.J., Failure/yield surface of materials: a view from strain space, in "Progress in Materials Science Research", A.C. Venetti (Ed.) Nova Science Publishers, 2008, 159-189.
    3. Z Sun, J Zhu, Comparing genomes and languages using current knowledge, EMBO reports, Vol 7, No. 10, 2006. 954-955.
    4. J J Zhu, S Coakley, M Holcombe, S MacNeil, R H Smallwood, Individual cell-based simulation of 3D multicellular spheroid self-assembly. European Cells and Materials, Vol.11, 2006, S3, 31.
    5. H. Zhang, C Garratt, J J Zhu, A. Holden. Role of up-regulation of IK1 in action potential shortening associated with atrial fibrillation in humans. Cardiovascular Research, Vol.66, 2005, 493- 502.
    6. H. Zhang, CJ Garratt, JJ Zhu, AV Holden, Functional conduction alternans generated by rapid foci in homogeneous virtual human atrial tissue. Heart Rhythm 2: 2005, S57.
    7. Zhang, H., J.J. Zhu, C.J. Garratt, A.V. Holden, Relative Contribution of Electrical and Gap Junctional Remodeling on Atrial Conduction Velocity in Virtual Human Atrial Tissue. Heart Rhythm, 1 (1), 2004, S256.
    8. H Zhang, J J Zhu, C Garratt, A Holden, Computational Study of the Relative Contributions of Electrical and Intercellular Coupling Remodelling on Human Atrial Conduction during Fibrillation, IEEE Computers in Cardiology, 2004, Vol.31, 141-144.
    9. J.J, Zhu, Q.Y, Liu, W.M, Huang & K.M., Liew, To simulate the behavior of shape memory alloys under thermomechanical cycling, Progress in Materials Science and Engineering A, Vol. 365, 2004, 298-301.
    10. J.J. Zhu & K.M. Liew. Describing The Morphology of 2H Martensite Using Group Theory, Part I: Theory, Mechanics of Advanced Materials and Structures. Vol.11, 2004, pp197-225.
    11. K.M. Liew & J.J. Zhu. Describing The Morphology of 2H Martensite Using Group Theory, Part II: Case Study, Mechanics of Advanced Materials and Structures. Vol.11, 2004, 227-248.
    12. H., Zhang, J.J, Zhu, C.J., Garatt, A.V., Holden, Cellular Modelling of Electrical Remodelling in Two Different Models of Human Atria Myocytes. IEEE Computers in Cardiology, 2003, Vol. 30, 777-780.
    13. J.J. Zhu and K.M. Liew To describe the deformation from DO3 austenite to 18R martensite in shape memory alloys using group theory. Acta Meterialia. 2003, Vol. 51, 2443-2456.
    14. Zhu, J. J., Huang, W. M. and Liew, K. M., Deformation Energy in Martensitic Transformation, Journal de Physique IV, Vol. 112, 2003, 179-182.
    15. J.J.,Zhu, N.G.,Liang, W.M.Huang, K.M.Liew & Z.H.Liu, A thermodynamic constitutive model for stress induced phase transformation in shape memory alloys, International Journal of Solids and Structures, 2002, Vol. 39, No. 3, 741-763.
    16. W.M.,Huang, J.J.,Zhu, 2002, To predict the behavior of shape memory alloys under proportional load, Mechanics of Materials, 2002, Vol. 34, N0. 9, 521-603.
    17. J.J.,Zhu, N.G.,Liang, K.M.Liew & W.M.Huang, Energy Conversion in Shape Memory Alloy Based Heat Engine. Part I: Theory, Journal of Intelligent Material Systems and Structures, 2001, Vol. 12, No. 2, 127-132.
    18. J.J.,Zhu, N.G.Liang, W.M.Huang & K.M.Liew, Energy Conversion in Shape Memory Alloy Based Heat Engine. Part II: Simulation. Journal of Intelligent Material Systems and Structures, 2001, Vol. 12, No. 2, 133-140.