Publications

Please email the PI at c.kadapa@napier.ac.uk or thechenna123@gmail.com if you want softcopies of of the papers.

Published papers

1. Z. Li, C. Kadapa, M. Hossain, J. Wang.
   A numerical framework for the simulation of coupled electromechanical growth.
   Computer Methods in Applied Mechanics and Engineering, 414:116128, 2023. (Link)

2. Z. Li, J. Wang, M. Hossain, C. Kadapa.
   A general theoretical scheme for shape-programming of incompressible hyperelastic shells through differential growth.
   International Journal of Solids and Structures, 265-266:112128, 2023. (Link)

3. A comprehensive assessment of accuracy of adaptive integration of cut cells for laminar fluid-structure interaction problems.
   Computers & Mathematics with Applications, 122:1-18, 2022. (Link)

4. C. Kadapa, M. Hossain.
   A unified numerical approach for soft to hard magneto-viscoelastically coupled polymers.
   Mechanics of Materials, 166:104207, 2022. (Link)

5. S. M. Hussain, S. Goel, C. Kadapa, E. Aristodemou.
   A short review of vapour droplet dispersion models used in CFD to study the airborne spread of COVID19.
   Materials Today: Proceedings, 64:1349-1356, 2022. (Link)

6. C. Kadapa.
   A unified simulation framework for fluid-structure-control interaction problems with rigid and flexible structures.
   International Journal of Computational Methods, 19:2150052, 2022. (Link)

7. C. Kadapa, Z. Li, M. Hossain, J. Wang.
   On the advantages of mixed formulation and higher-order elements for computational morphoelasticity.
   Journal of the Mechanics and Physics of Solids, 148:104289, 2021. (Link)

8. Z. Li, Q. Wang, P. Du, C. Kadapa, M. Hossain, J. Wang.
   Analytical study on growth-induced axisymmetric deformations and shape-control of circular hyperelastic plates.
   International Journal of Engineering Science, 170:103594, 2022. (Link)

9. C. Kadapa.
   A simple extrapolated predictor for overcoming the starting and tracking issues in the arc-length method for nonlinear structural mechanics.
   Engineering Structures, 234:111755, 2021. (Link)

10. C. Kadapa
    A novel semi-implicit scheme for elastodynamics and wave propagation in nearly and truly incompressible solids.
    Acta Mechanica, 2021. (Link)

11. C. Kadapa, M. Hossain.
    A robust and computationally efficient finite element framework for coupled electromechanics.
    Computer Methods in Applied Mechanics and Engineering, 372:113443, 2020. (Link)

12. C. Kadapa.
    A second-order accurate non-intrusive staggered scheme for fluid-structure interaction with ultra lightweight rigid bodies
    Ocean Engineering, 217:107940, 2020. (Link)

13. C. Kadapa, W. G. Dettmer, D. Perić.
    Accurate iteration-free mixed-stabilised formulations for laminar incompressible Navier-Stokes: Applications to fluid-structure interaction.
    Journal of Fluids and Structures, 97:103077, 2020. (Link)

14. W. G. Dettmer, A. Lovrić , C. Kadapa, D. Perić.
    New iterative and staggered solution schemes for incompressible fluid‐structure interaction based on Dirichlet‐Neumann coupling.
    International Journal for Numerical Methods in Engineering, 2020. (Link)

15. C. Kadapa, M. Hossain.
    A linearized consistent mixed displacement-pressure formulation for compressible and incompressible hyperelasticity.
    Mechanics of Advanced Materials and Structures, 2020. (Link)

16. C. Kadapa
    Novel quadratic B\'ezier triangular and tetrahedral elements using existing mesh generators: Extension to nearly incompressible implicit and explicit elastodynamics in finite strains
    International Journal for Numerical Methods in Engineering, Vol. 119, pp. 75-104, 2019. (Link)

17. C. Kadapa
    Novel quadratic B\'ezier triangular and tetrahedral elements using existing mesh generators: Applications to linear nearly incompressible elastostatics and implicit and explicit elastodynamics.
    International Journal for Numerical Methods in Engineering, Vol. 117, pp. 543-573, 2019. (Link)

18. A. Lovrić, W. G. Dettmer, C. Kadapa, D. Perić
    A new family of projection schemes for the incompressible Navier-Stokes equations with control of high-frequency damping
    Computer Methods in Applied Mechanics and Engineering, Vol. 339, pp. 160-183, 2018. (Link)

19. C. Kadapa, W. G. Dettmer, D. Perić
    A stabilised immersed framework on hierarchical b-spline grids for fluid-flexible structure interaction with solid–solid contact.
    Computer Methods in Applied Mechanics and Engineering, Vol. 335, pp. 472-489, 2018. (Link)

20. C. Kadapa, W. G. Dettmer, D. Perić
    On the advantages of using the first-order generalised-alpha scheme for structural dynamic problems.
    Computers and Structures, Vol. 193, pp. 226-238, 2017. (Link)

21. C. Kadapa, W. G. Dettmer, D. Perić
    A stabilised immersed boundary method on hierarchical b-spline grids for fluid-rigid body interaction with solid-solid contact.
    Computer Methods in Applied Mechanics and Engineering, Vol. 318, pp. 242-269, 2017. (Link)

22. W. G. Dettmer, C. Kadapa, D. Perić
    A stabilised immersed boundary method on hierarchical b-spline grids.
    Computer Methods in Applied Mechanics and Engineering, Vol. 311, pp. 415-437, 2016. (Link)

23. C. Kadapa, W. G. Dettmer, D. Perić
    Subdivision based mixed methods for isogeometric analysis of linear and nonlinear nearly incompressible materials.
    Computer Methods in Applied Mechanics and Engineering, Vol. 305, pp. 241-270, 2016. (Link)

24. C. Kadapa, W. G. Dettmer, D. Perić
    A fictitious domain/distributed Lagrange multiplier based fluid-structure interaction scheme with hierarchical B-Spline grids.
    Computer Methods in Applied Mechanics and Engineering, Vol. 301, pp. 1-27, 2016. (Link)

25. C. Kadapa, W. G. Dettmer, D. Perić
    NURBS based Least-Squares Finite Element Methods for Fluid and Solid mechanics.
    International Journal for Numerical Methods in Engineering, Vol. 101, pp. 521-539, 2015. (Link)