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Department of Applied Mechanics
Budapest University of Technology, Hungary
Education:
2002-2005 – Ph.D student at the Dept. of Applied Mechanics, Budapest University of Technology and Economics
1995-2000 – Regular student at the Faculty of Mechanical Engineering, Budapest University of Technology and Economics, Applied Mechanics and Fluid Mechanics branches
Career:
2012 - 2015 - Bolyai János Research Scholarship, Hungarian Academy of Sciences
2008 - 2011 - Bolyai János Research Scholarship, Hungarian Academy of Sciences
2011 - Associate Professor
2006 - 2011 - Assistant Professor
2006 - Assistant Lecturer, Post-doctoral Scholarship sponsored by the Ministry of Education (OM)
2005 - Ph.D degree in Mechanical Engineering
2000 -2002 – Research Assistant at the Dept. of Applied Mechanics, Budapest University of Technology and Economics
Selected Publications:
I. Moharos, I. Oldal, and A. Szekrényes, Finite Element Method, Typotex Publishing House, Budapest, Hungary, 2012.
Szekrenyes, A., Interlaminar Stresses and Energy Release Rates in Delaminated Orthotropic Composite Plates. International Journal of Solids and Structures, Volume 49, Pages 2460-2470. February 2012.
Szekrényes, A.: The system of exact kinematic conditions and application to delaminated first-order shear deformable composite plates. Int. J. Mech. Sci. 77, 17–29 (2013).
A. Szekrényes, “Application of Reddy's third-order theory to delaminated orthotropic composite plates,” European Journal of Mechanics A: Solids, vol. 43, pp. 9–24, 2014.
A. Szekrényes, “Analysis of classical and first-order shear deformable cracked orthotropic plates,” Journal of Composite Materials, vol. 48, no. 12, pp. 1441–1457, 2014.
Szekrényes, A.: Bending solution of third-order orthotropic Reddy plates with asymmetric interfacial crack. Int. J. Solids Struct. 51, 2598–2619 (2014).
Szekrenyes, A.: Stress and fracture analysis in delaminated orthotropic composite plates using third-order shear deformation theory. Appl. Math. Model. 38(1516), 3897–3916 (2014).
A. Szekrényes, “Coupled flexural–longitudinal vibration of delaminated composite beams with local stability analysis,” Journal of Sound and Vibration, vol. 333, no. 20, pp. 5141–5164, 2014.
Szekrényes, A.: Natural vibration-induced parametric excitation in delaminated Kirchhoff plates. J. Compos. Mater. 0, 1–28 (2015).
A. Szekrényes, “A special case of parametrically excited systems: free vibration of delaminated composite beams,” European Journal of Mechanics-A/Solids, vol. 49, pp. 82–105, 2015.
Zoltán Juhász and András Szekrényes, “Estimation of local delamination buckling in orthotropic composite plates using Kirchhoff plate finite elements,” Mathematical Problems in Engineering, vol. 2015, Article ID 749607, 14 pages, 2015.
Z. Juhász and A. Szekrényes, “Progressive buckling of a simply supported delaminated orthotropic rectangular composite plate,” International Journal of Solids and Structures, 2015.
Szekrenyes, A.: Semi-layerwise analysis of laminated plates with nonsingular delamination—the theorem of autocontinuity. Appl. Math. Model. 40(2), 1344–1371 (2016).
A. Szekrényes, “Natural vibration-induced parametric excitation in delaminated Kirchhoff plates,” Journal of Composite Materials, vol. 50, no. 17, pp. 2337–2364, 2016.
Zoltan Juhasz and Andras Szekrenyes, “The effect of delamination on the critical buckling force of composite plates: Experiment and simulation”, Composite Structures, Vol. 168, pp 456-464, May 2017
T. Pölöskei and A. Szekrényes, “Quasi-periodic excitation in a delaminated composite beam,” Composite Structures, vol. 159, pp. 677–688, 2017.
Andras Szekrenyes, “The role of transverse stretching in the delamination fracture of softcore sandwich plates”, Applied Mathematical Modelling, Vol. 63, pp 611-632, November 2018
Tamas Poloskei and Andras Szekrenyes, “Dynamic Stability of a Structurally Damped Delaminated Beam Using Higher Order Theory”, Mathematical Problems in Engineering, Volume 2018, Article ID 2674813, 15 pages
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