Department of Applied Mechanics

Indian Institute of Technology Madras,Chennai.

2013

34. K. Senthil, A. Arockiarajan, R. Palaninathan, B. Santhosh and K.M. Usha (2013), Investigations on adhesively bonded curved CFRP panels with closed debonds subjected to compressive load, Submitted for publication.

33. R. Jayendiran and A. Arockiarajan (2013), Investigations on non-linear temperature-dependent electro-mechanical response of 1-3 type piezocomposites, Submitted for publication.

32. Naresh pakam and A. Arockiarajan (2013), Magneto-electro-elastic response of 1-3-2 type multiferroic composites, Submitted for publication.

31. K. Senthil, A. Arockiarajan, R. Palaninathan, B. Santhosh and K.M. Usha (2013), Defects in composite structures: Growth initiation and prediction methods – A comprehensive review, Submitted for publication.

30. R. Jayendiran and A. Arockiarajan (2013), Non-linear electro-mechanical coupling behaviour of 1-3 type piezocomposite under compression, Submitted for publication.

29. R. Jayendiran and A. Arockiarajan (2013), Temperature-dependent ferroelectric switching of 1-3 type piezocomposites: an experimental and theoretical study, Submitted for publication

28. R. Jayendiran and A. Arockiarajan, Modeling and experimental characterization on temperature-dependent ferroelastic switching of 1-3 type piezocomposites, International Journal of Engineering Science, 10.1016/j.ijengsci.2013.03.006.

27. R. Jayendiran and A. Arockiarajan, Non-linear electromechanical response of 1-3 type piezocomposites, International Journal of Solids and Structures, 2013, accepted for publication.

26. K. Senthil, A. Arockiarajan, R. Palaninathan, B. Santhosh and K.M. Usha, Experimental and Numerical studies on adhesively bonded CFRP laminates with closed debonds, Composite Structures, 95, 2013, 598 - 606.

25. R. Jayendiran and A. Arockiarajan, Experimental and theoretical studies on ferroelastic switching of 1-3 type piezocomposites, European Journal of Mechanics - Solids, 38, 2013, 48 - 58.

2012

24. R. Jayendiran and A. Arockiarajan, Modeling of dielectric and piezoelectric response of 1-3 type piezocomposites, Journal of Applied Physics, 112, 2012, 044107.

23. Naresh pakam and A. Arockiarajan, An analytical model for predicting the effective properties of magneto-electro-elastic (MEE) composites, Computational Material Science, 65, 2012, 19 -28.

22. S. Skatulla, C. Sansour and A. Arockiarajan, A multiplicative approach for nonlinear electro-elasticity, Computer Methods in Applied Mechanics and Engineering, 245, 2012, 243 - 255.

21. M. Sakthivel and A. Arockiarajan, Thermo-electro-mechanical response of 1-3-2 piezoelectric composites: Effect of fiber orientations, Acta Mechanica, 223, 2012, 1353 - 1369.

2011

20. K. Jayabal, A. Menzel, A. Arockiarajan, and S.M. Srinivasan, Micromechanical modelling of switching phenomena in polycrystalline piezoceramics: application of a polygonal finite element approach, Computational Mechanics, 48, 2011, 421- 435.

19. M. Sakthivel and A. Arockiarajan, Studies on effective fiber and matrix poling characteristics of 1-3  piezoelectric composites, Internatiinal Journal of Structural changes in solids, 3, 2011,1-19.

18. M. Sakthivel and A. Arockiarajan, An effective matrix poling characteristics of 1-3-2 piezoelectric composites, Sensors and Actuators - A ,167, 2011, 34 - 43.

2010

17. P. Pavankumar, K. Jayabal, and A. Arockiarajan, A Comparative Study Between Finite Element and Polygonal Finite Element Approaches for Electromechanical Coupled Linear Problems, Integrated Ferroelectrics, 120, 2010, 90 - 101.

16. M. Sakthivel and A. Arockiarajan, An analytical model for predicting thermo-electro-mechanical response of 1-3 piezoelectric composites, Computational Material Science, 48, 2010, 759 - 767.

15. M. Sakthivel and A. Arockiarajan Thermo-electro-mechanical response of 1-3-2 type piezoelectric  composites, Smart materials and structures, 19, 2010,105033.

14. A. Arockiarajan, S.M. Sivakumar and C. Sansour, A thermodynamically motivated model for ferroelectric ceramics with grain boundary effects, Smart materials and structures, 19, 2010, 015008.

2009

13. K. Jayabal, D. Srikrishna, T.S. Abhinandan, A. Arockiarajan S.M. Srinivasan, A thermodynamically  consistent model with evolving domain structures in ferroelectrics, International Journal of Engineering Science, 47, 2009, 1014-1024.

12. K. Jayabal, A. Arockiarajan, and S. M. Sivakumar, Multiaxial behavior of ferroelectric single and  polycrystals with pressure dependent boundary effects, Computational Material Science, 44, 2009,1222-1230.

11. S. Skatulla, A. Arockiarajan and C. Sansour, A nonlinear generalized continuum approach for electro-elasticity including scale effects, Journal of the Mechanics and Physics of Solids, 57, 2009, 137-160.

Before 2008

10. K. Jayabal, A. Arockiarajan and S. M. Sivakumar, A micromechanical model for polycrystal ferroelectrics with grain boundary effects, Computer Modeling in Engineering & Sciences, 27, 2008, 111-124.

9. A. Arockiarajan, A. Menzel and W. Seemann, Constitutive modeling of rate-dependent domain switching effects in ferroelectric materials, Journal of Electroceramics, 20, 2008, 159-165.

8. A. Menzel, A. Arockiarajan and S M Sivakumar, Two models to simulate rate-dependent domain switching effects - application to ferroelastic polycrystalline ceramics, Smart Materials and Structures, 17, 2008,015026.

7. A. Arockiarajan and C. Sansour, Micromechanical modeling and simulation of rate-dependent effects in ferroelectric polycrystals, Computational Material Science, 43, 2008, 842 - 854.

6. A. Arockiarajan and A. Menzel, On the modeling of rate–dependent domain switching in piezoelectric materials under superimposed stresses. Computer Modeling in Engineering & Sciences 19, 2007, 163–180.

5. A. Arockiarajan, B. Delibas, A. Menzel and W. Seemann, Computational modeling of rate-dependent domain switching in piezoelectric materials -- a micro-macromechanical approach, Journal of Intelligent Material Systems and Structures, 18, 2007, 983-999.

4. A. Arockiarajan, B. Delibas, A. Menzel and W. Seemann, Studies on rate dependent switching effects of  piezoelectric materials using a finite element model, Computational Material Science, 37, 2006, 306-317.

3. A. Arockiarajan, B. Delibas, A. Menzel and W. Seemann, Micromechanical modeling of switching effects in piezoelectric materials, European Journal of Mechanics – Solids, 25, 2006, 950-964.

2. B. Delibas, A. Arockiarajan and W. Seemann, Rate dependent properties of perovskite type tetragonal  piezoelectric materials using micromechanical model, International Journal of Solids and Structures, 43,2006, 697-712.

1. B. Delibas, A. Arockiarajan and W. Seemann, A nonlinear model to piezoelectric polycrystalline ceramics  under quasi-static electromechanical loading, Journal of Material Science, 16, 2005, 507 - 515.