GAČR Project: Advanced computational and experimental modelling of laminated glass structures under low velocity impact
GAČR Project: Design and advanced modeling of forced-entry and bullet resistant glass structures
Summer internship in robotic assembly of modular materials, see video below
Current activities
Numerical simulation of damage (focused on phase field models)
Modeling the propagation of damage in laminated glass beams and plates under dynamic loading
Numerical methods in evolution equations
Simulations in FEniCS library, teaching FEniCS course
Personal interests
Theoretical Mechanics, variational principles in mechanics
Mathematics
3D printers technology
Robotics and open electronic systems
Modern portfolio theory, risk quantification, modeling of long-term investments
Object programming in the JAVA language
Selected publications
Schmidt J., Zemanová A., Zeman J., Šejnoha M. Phase-Field Fracture Modelling of Thin Monolithic and Laminated Glass Plates under Quasi-Static Bending (Available on: https://www.mdpi.com/1996-1944/13/22/5153/pdf)
Schmidt J., Janda T., Zemanová A., Zeman J., Šejnoha M. Newmark algorithm for dynamic analysis with maxwell chain model. (Available on: https://arxiv.org/pdf/1911.03255.pdf)
Schmidt J. Experimental and numerical analysis of laminated glass under dynamic loading. Master thesis. CTU in Prague. 2018. (Available on: experimental-numerical-analysis.pdf)
Zemanová A., Zeman J., Janda T., Schmidt J., Šejnoha M. On modal analysis of laminated glass: Usability of simplified methods and enhanced effective thickness. (Available on: https://arxiv.org/pdf/1801.01110.pdf)
Hána T., Janda T., Schmidt J., Zemanová A., Šejnoha M., Eliášová M., Vokáč M., Experimental and Numerical Study of Viscoelastic Properties of Polymeric Interlayers Used for Laminated Glass: Determination of Material Parameters. Materials. 2019. (Available on: https://www.mdpi.com/1996-1944/12/14/2241)
