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Publications - Martin Kružík


Books and chapters (7)
1. * Tomáš Roubíček, Martin Kružík, Jan Zeman, CH. G. Panagiotopoulos, R. Vodička, V. Mantič: Delamination and Adhesive Contacts, Their Mathematical Modeling and Numerical Treatment. Mathematical Methods and Models in Composites, 497-578. University of Seville, Seville 2023.   Download
2. * M. Horák, Martin Kružík, P. Pelech, A. Schlömerkemper: Gradient Polyconvexity and Modeling of Shape Memory Alloys. Variational Views in Mechanics, 133-156. Springer Nature, Cham 2021.   Download
3. * Martin Kružík, Tomáš Roubíček: Mathematical Methods in Continuum Mechanics of Solids. Interaction of Mechanics and Mathematics . Springer Nature, Cham 2019.   Download
4. * A. Kalamajska, Stefan Krömer, Martin Kružík: Weak Lower Semicontinuity by Means of Anisotropic Parametrized Measures. Trends in Applications of Mathematics to Mechanics, 23-51. Springer International Publishing, Cham 2018.   Download
5. * Tomáš Roubíček, Martin Kružík, J. Zeman: Delamination and Adhesive Contact Models and their Mathematical Analysis and Numerical Treatment. Computational and Experimental Methods in Structures, 349-400. World Scientific Publishing Co.Pte.Ltd, London 2013.   Download
6. * Tomáš Roubíček, Martin Kružík, J. Zeman: Delamination and adhesive contact models and their mathematical analysis and numerical treatment. Computational and Experimental Methods in Structures, 349-400. World Scientific Publishing Co.Pte.Ltd, London 2013.   Download
7. * Michal Kočvara, Martin Kružík, Jiří Outrata: On the control of an evolutionary equilibrium in micromagnetics. Optimalization with Multivalued Mappings: Theory, Applications and Aldorithms, 143-168. Springer, Berlin 2006.

Journal articles (101)
1. * D. Henrion, M. Korda, Martin Kružík, R. Rios-Zertuche: Occupation Measure Relaxations in Variational Problems: The Role of Convexity. SIAM Journal on Optimization 34:2 (2024), 1708-1731. SIAM Society for Industrial and Applied Mathematics.   Download
2. * E. Davoli, Martin Kružík, V. Pagliari: Homogenization of high-contrast composites under differential constraints. Advances in Calculus of Variations 17:2 (2024), 277-318.   Download
3. * J. Bevan, Martin Kružík, Jan Valdman: Hadamard’s inequality in the mean. Nonlinear Analysis: Theory, Methods & Applications 243. Elsevier.   Download
4. * M. Bresciani, Martin Kružík: A Reduced Model for Plates Arising as Low-Energy Gamma-Limit in Nonlinear Magnetoelasticity. SIAM Journal on Mathematical Analysis 55:4 (2023), 3108-3168. SIAM Society for Industrial and Applied Mathematics.   Download
5. * K. Brazda, Martin Kružík, F. Rupp, U. Stefanelli: Curvature-dependent Eulerian interfaces in elastic solids. Philosophical Transactions of the Royal Society A-Mathematical Physical and Engineering Sciences 381.   Download
6. * Marek Tyburec, Michal Kočvara, Martin Kružík: Global weight optimization of frame structures with polynomial programming. Structural and Multidisciplinary Optimization 66.   Download
7. * M. Bresciani, E. Davoli, Martin Kružík: Existence results in large-strain magnetoelasticity. Annales de l'Institut Henri Poincaré. Analyse non Linéaire 40:3 (2023), 557-592. EMS Press.   Download
8. * Stefan Krömer, Martin Kružík, E. Zappale: Relaxation of functionals with linear growth: Interactions of emerging measures and free discontinuities. Advances in Calculus of Variations 16:4 (2023), 835-865.   Download
9. * P. Dondl, M. Jesenko, Martin Kružík, Jan Valdman: Linearization and computation for large-strain visco-elasticity. Mathematics in Engineering 5:2 (2023), 1-15.   Download
10. * M. Horák, A. J. Gil, R. Ortigosa, Martin Kružík: A polyconvex transversely-isotropic invariant-based formulation for electro-mechanics: Stability, minimisers and computational implementation. Computer Methods in Applied Mechanics and Engineering 403. Elsevier.   Download
11. * R. Badal, M. Friedrich, Martin Kružík: Nonlinear and Linearized Models in Thermoviscoelasticity. Archive for Rational Mechanics and Analysis 247. Springer.   Download
12. * D. Drozdenko, M. Knapek, Martin Kružík, K. Máthis, K. Švadlenka, Jan Valdman: Elastoplastic Deformations of Layered Structures. Milan Journal of Mathematics 90:2 (2022), 691-706.   Download
13. * J. Ciambella, Martin Kružík, G. Tomassetti: A theory of magneto-elastic nanorods obtained through rigorous dimension reduction. Applied Mathematical Modelling 106:1 (2022), 426-447. Elsevier.   Download
14. * Martin Kružík, P. M. Mariano, D. Mucci: Crack Occurrence in Bodies with Gradient Polyconvex Energies. Journal of Nonlinear Science 32. Springer.   Download
15. * E. Davoli, Martin Kružík, P. Pelech: Separately global solutions to rate-independent processes in large-strain inelasticity. Nonlinear Analysis: Theory, Methods & Applications 215. Elsevier.   Download
16. * M. Friedrich, Martin Kružík, U. Stefanelli: Equilibrium of immersed hyperelastic solids. Discrete and Continuous Dynamical systems - Series S 14:11 (2021), 4141-4157. AIMS Press.   Download
17. * Martin Kružík, J. Zeman: Elastoplasticity of gradient-polyconvex materials. Zeitschrift für angewandte Mathematik und Physik 72. Springer.   Download
18. * M. Friedrich, Martin Kružík, Jan Valdman: Numerical approximation of von Kármán viscoelastic plates. Discrete and Continuous Dynamical systems - Series S 14:1 (2021), 299-319. AIMS Press.   Download
19. * E. Davoli, Martin Kružík, P. Piovano, U. Stefanelli: Magnetoelastic thin films at large strains. Continuum Mechanics and Thermodynamics 33:1 (2021), 327-341. Springer.   Download
20. * Miroslav Frost, Barbora Benešová, Hanuš Seiner, Martin Kružík, Petr Sedlák, Petr Šittner: Thermomechanical model for NiTi-based shape memory alloys covering macroscopic localization of martensitic transformation. International Journal of Solids and Structures 221:1 (2021), 117-129. Elsevier.   Download
21. * M. Horák, Martin Kružík: Gradient polyconvex material models and their numerical treatment. International Journal of Solids and Structures 195:1 (2020), 57-65. Elsevier.   Download
22. * Martin Kružík, P. Pelech, A. Schloemerkemper: Gradient Polyconvexity in Evolutionary Models of Shape-Memory Alloys. Journal of Optimization Theory and Applications 184:1 (2020), 5-20. Springer.   Download
23. * D. Grandi, Martin Kružík, E. Mainini, U. Stefanelli: Equilibrium for Multiphase Solids with Eulerian Interfaces. Journal of Elasticity 142:1 (2020), 409-431. Springer.   Download
24. * M. Friedrich, Martin Kružík: Derivation of von Kármán Plate Theory in the Framework of Three-Dimensional Viscoelasticity. Archive for Rational Mechanics and Analysis 238:1 (2020), 489-540. Springer.   Download
25. * Martin Kružík, D. Melching, U. Stefanelli: Quasistatic evolution for dislocation-free finite plasticity. ESAIM-Control Optimisation and Calculus of Variations 26. EDP Sciences.   Download
26. * D. Henrion, Martin Kružík, T. Weisser: Optimal control problems with oscillations, concentrations and discontinuities. Automatica 103:1 (2019), 159-165. Elsevier.   Download
27. * D. Grandi, Martin Kružík, E. Mainini, U. Stefanelli: A Phase-Field Approach to Eulerian Interfacial Energies. Archive for Rational Mechanics and Analysis 234:1 (2019), 351-373. Springer.   Download
28. * Miroslav Frost, Martin Kružík, Jan Valdman: Interfacial polyconvex energy-enhanced evolutionary model for shape memory alloys. Mathematics and Mechanics of Solids 24:8 (2019), 2619-2635. Sage.   Download
29. * M. Baia, Stefan Krömer, Martin Kružík: Generalized W1-1-Young Measures and Relaxation of Problems with Linear Growth. SIAM Journal on Mathematical Analysis 50:1 (2018), 1076-1119. SIAM Society for Industrial and Applied Mathematics.   Download
30. * Martin Kružík, Jan Valdman: Computational modeling of magnetic hysteresis with thermal effects. Mathematics and Computers in Simulation 145:1 (2018), 90-105. Elsevier.   Download
31. * M. Friedrich, Martin Kružík: On the passage from nonlinear to linearized viscoelasticity. SIAM Journal on Mathematical Analysis 50:4 (2018), 4426-4456. SIAM Society for Industrial and Applied Mathematics.   Download
32. * K. Anguige, P. Dondl, Martin Kružík: On the existence of minimisers for strain-gradient single-crystal plasticity. ZAMM-Zeitschrift fur Angewandte Mathematik und Mechanik 98:3 (2018), 431-447. Wiley.   Download
33. * Martin Kružík, C. Mora-Corral, U. Stefanelli: Quasistatic elastoplasticity via Peridynamics: existence and localization. Continuum Mechanics and Thermodynamics 30:5 (2018), 1155-1184. Springer.   Download
34. * B. Benešová, Martin Kružík, A. Schlömerkemper: A note on locking materials and gradient polyconvexity. Mathematical Models and Methods in Applied Sciences 28:12 (2018), 2367-2401. World Scientific Publishing.   Download
35. * J. Kratochvíl, Martin Kružík: A Model of Microstructure Evolution in Metals Exposed to Large Strains. Acta Physica Polonica A 134:3 (2018), 753-756. Polska Akademia Nauk.   Download
36. * M. Claeys, D. Henrion, Martin Kružík: Semi-definite relaxations for optimal control problems with oscillation and concentration effects. ESAIM-Control Optimisation and Calculus of Variations 23:1 (2017), 95-117. EDP Sciences.   Download
37. * J. Krämer, S. Krömer, Martin Kružík, G. Pathó: A-quasiconvexity at the boundary and weak lower semicontinuity of integral functionals. Advances in Calculus of Variations 10:1 (2017), 49-67.   Download
38. * B. Benešová, Martin Kružík: Weak Lower Semicontinuity of Integral Functionals and Applications. SIAM Review 59:4 (2017), 703-766.   Download
39. * S. Heinz, Martin Kružík: Computations of Quasiconvex Hulls of Isotropic Sets. Journal of Convex Analysis 24:2 (2017), 477-492. Heldermann Verlag.   Download
40. * B. Benešová, Martin Kružík: Characterization of gradient young measures generated by homeomorphisms in the plane. ESAIM-Control Optimisation and Calculus of Variations 22:1 (2016), 267-288. EDP Sciences.   Download
41. * H. Knüpfer, Martin Kružík: A sharp interface evolutionary model for shape memory alloys. ZAMM-Zeitschrift fur Angewandte Mathematik und Mechanik 96:11 (2016), 1347-1355. Wiley.   Download
42. * J. Kratochvíl, Martin Kružík: Statistically motivated model of mechanisms controlling evolution of deformation band substructure. International Journal of Plasticity 81:1 (2016), 196-208. Elsevier.   Download
43. * Martin Kružík, U. Stefanelli, J. Zeman: Existence Results for Incompressible Magnetoelasticity. Discrete and Continuous Dynamical Systems 35:6 (2015), 2615-2623. AIMS Press.   Download
44. * Martin Kružík, U. Stefanelli, Ch. Zanini: Quasistatic evolution of magnetoelastic plates via dimension reduction. Discrete and Continuous Dynamical Systems 35:12 (2015), 5999-6013. AIMS Press.   Download
45. * Martin Kružík, Ch. Panagiotopoulos, Tomáš Roubíček: Quasistatic adhesive contact delaminating in mixed mode and its numerical treatment. Mathematics and Mechanics of Solids 20:5 (2015), 582-599. Sage.   Download
46. * B. Benešová, S. Kroemer, Martin Kružík: Boundary effects and weak* lower semicontinuity for signed integral functionals on BV. ESAIM-Control Optimisation and Calculus of Variations 21:2 (2015), 513-534. EDP Sciences.   Download
47. * J. Kratochvíl, Martin Kružík: A crystal plasticity model of a formation of a deformation band structure. Philosophical Magazine 95:32 (2015), 3621-3639. Taylor & Francis.   Download
48. * Barbora Benešová, Martin Kružík, G. Pathó: Young measures supported on invertible matrices. Applicable Analysis 93:1 (2014), 105-123. Taylor & Francis.   Download
49. * A. Kalamajska, S. Kraemer, Martin Kružík: Sequential weak continuity of null Lagrangians at the boundary. Calculus of Variations and Partial Differential Equations 49, 1263-1278. Springer.   Download
50. * B. Benešová, Martin Kružík, G. Pathó: A mesoscopic thermomechanically coupled model for thin-film shape-memory alloys by dimension reduction and scale transition. Continuum Mechanics and Thermodynamics 26:5 (2014), 683-713. Springer.   Download
51. * Barbora Benešová, Martin Kružík, Tomáš Roubíček: Thermodynamically consistent mesoscopic model of the ferro/paramagnetic transition. Zeitschrift für angewandte Mathematik und Physik 64, 1-28. Springer.   Download
52. * R. Anderssen, Martin Kružík: Modelling of Wheat-Flour Dough Mixing as an Open-Loop Hysteretic Process. Discrete and Continuous Dynamical Systems-Series B 18:2 (2013), 283-293. AIMS Press.   Download
53. * A. L. Bessoud, Martin Kružík, U. Stefanelli: A macroscopic model for magnetic shape-memory single crystals. Zeitschrift für angewandte Mathematik und Physik 64:2 (2013), 343-359. Springer.   Download
54. * S. Kroemer, Martin Kružík: Oscillations and Concentrations in Sequences of Gradients up to the Boundary. Journal of Convex Analysis 20:3 (2013), 723-752. Heldermann Verlag.   Download
56. * Martin Kružík: Quasiconvexity at the boundary and concentration effects generated by gradients. ESAIM-Control Optimisation and Calculus of Variations 19:3 (2013), 679-700. EDP Sciences.   Download
57. * Martin Kružík, J. Zimmer: On an extension of the space of bounded deformations. Zeitschrift für Analysis und Ihre Anwendungen 31:1 (2012), 75-91.   Download
58. * Martin Kružík, J. Zimmer: Rate-Independent Processes with Linear Growth Energies and Time-Dependent Boundary Conditions. Discrete and Continuous Dynamical systems - Series S 5:3 (2012), 591-604. AIMS Press.   Download
59. * T. Seidman, M. Gobbert, D. Trott, Martin Kružík: Finite element approximation for time-dependent diffusion with measure-valued source. Numerische Mathematik 122:4 (2012), 709-723.   Download
60. * Martin Kružík, J. Zimmer: A model of shape memory alloys taking into account plasticity. IMA Journal of Applied Mathematics 76:1 (2011), 193-216.
61. * S. Bartels, Martin Kružík: An efficient approach to the numerical solution of rate-independent problems with nonconvex energies. Multiscale Modeling and Simulation 9:3 (2011), 1275-1300. Society for Industrial and Applied Mathematics.   Download
62. * J. Kratochvíl, Martin Kružík, R. Sedláček: Energetic approach to gradient plasticity. ZAMM-Zeitschrift fur Angewandte Mathematik und Mechanik 90:2 (2010), 122-135. Wiley.   Download
63. * Martin Kružík, J. Zimmer: Evolutionary problems in non-reflexive spaces. ESAIM-Control Optimisation and Calculus of Variations 16:1 (2010), 1-22. EDP Sciences.   Download
64. * J. Kratochvíl, Martin Kružík, R. Sedláček: Crystal plasticity model of shear and kink bands-energetic approach. Philosophical Magazine 90:27 (2010), 3729-3742. Taylor & Francis.   Download
65. * I. Fonseca, Martin Kružík: Oscillations and concentrations generated by A-free mappings and weak lower semicontinuity of integral functionals. ESAIM-Control Optimisation and Calculus of Variations 2 (2010), 472-502. EDP Sciences.   Download
66. * Martin Kružík, G. Pathó: Variational model of martensitic thin films and its numerical treatment. Technische Mechanik 30, 203-210.   Download
67. * J. Kratochvíl, Martin Kružík, R. Sedláček: Model of Structural Fragmentation Induced by High Pressure Torsion. Reviews on Advanced Materials Science 25:1 (2010), 88-98.   Download
68. * J. Kratochvíl, Martin Kružík, R. Sedláček: Instability origin of subgrain formation in plastically deformed materials. International Journal of Engineering Science 48:11 (2010), 1401-1412. Elsevier.
69. * J. Kratochvíl, Martin Kružík, R. Sedláček: A model of ultrafine microstructure evolution in materials deformed by high-pressure torsion. Acta Materialia 57:3 (2009), 739-748. Elsevier.   Download
70. * Martin Kružík, Tomáš Roubíček: Matematické a počítačové modelování aktivních materiálů. Vesmír 88:1 (2009), 21-23. Vesmír.   Download
71. * J. Kratochvíl, Martin Kružík, R. Sedláček: Energetic formulation of nonlocal crystal plasticity. International Journal of Materials Research 100:3 (2009), 340-341. Walter de Gruyter.   Download
72. * A. Kalamajska, Martin Kružík: Oscillations and concentrations in sequences of gradients. ESAIM-Control Optimisation and Calculus of Variations 14:1 (2008), 71-104. EDP Sciences.
73. * Jan Koutný, Martin Kružík, A. Kurdila, Tomáš Roubíček: Identification of Preisach-type hysteresis operators. Numerical Functional Analysis and Optimization 29:1 (2008), 149-160. Taylor & Francis.
74. * J. Kratochvíl, Martin Kružík, R. Sedláček: Statistically based continuum model of dislocation cell structure formation. Physical Review. B 75:2 (2007), 1-14.
75. * R. Sedláček, J. Kratochvíl, Martin Kružík, Ch. Krempaszky: Variational approach to formation of misoriented microstructures in plastic deformation. Proceedings in Applied Mathematics and Mechanics 7:1 (2007), 4080005-4080006.   Download
76. * Tomáš Roubíček, Martin Kružík, Jan Koutný: A mesoscopical model of shape-memory alloys. Proceedings of the Estonian Academy of Sciences - Physics Mathematics 56:2 (2007), 146-154.
77. * Martin Kružík: On convergence of gradient-dependent integrands. Applications of Mathematics 52:6 (2007), 529-543. Springer.
78. * Martin Kružík: Periodic solutions to a hysteresis model in micromagnetics. Journal of Convex Analysis 13:1 (2006), 81-99. Heldermann Verlag.
79. * Martin Kružík, A. Prohl: Recent developments in the modeling, analysis, and numerics of ferromagnetism. SIAM Review 48:3 (2006), 439-483.
80. * J. Kratochvíl, Martin Kružík, R. Sedláček, A. M. Sveshnikov: Mechanisms controlling formation of the ultra-fine microstructure in severely deformed materials. Engineering Mechanics = Inženýrská mechanika 13:4 (2006), 261-270. Association for Engineering Mechanics.
81. * Tomáš Roubíček, Martin Kružík: Mesoscopic model of microstructure evolution in shape memory alloys, its numerical analysis and computer implementation. GAMM Mitteilungen 29:1 (2006), 192-214.
82. * Martin Kružík, A. Mielke, Tomáš Roubíček: Modelling of microstructure and its evolution in shape-memory-alloy single crystals, in particular in CuALNi. Meccanica 40, 389-418. Springer.
83. * Tomáš Roubíček, Martin Kružík: Mesoscopic model for ferromagnets with isotropic hardening. Zeitschrift für angewandte Mathematik und Physik 56:1 (2005), 107-135. Springer.
84. * Tomáš Roubíček, Martin Kružík: Microstructure evolution model in micromagnetics. Zeitschrift für angewandte Mathematik und Physik 55:1 (2004), 159-182. Springer.
85. * Martin Kružík, Tomáš Roubíček: Interactions between demagnetizing field and minor-loop development in bulk ferromagnets. Journal of Magnetism and Magnetic Materials 277, 192-200. Elsevier.
86. * Martin Kružík, A. Prohl: Macroscopic modeling of magnetic hysteresis. Advances in Mathematical Sciences and Applications 14:14 (2004), 665-681.
87. * Martin Kružík, F. Otto: A phenomenological model for hysteresis in polycrystalline shape memory alloys. ZAMM-Zeitschrift fur Angewandte Mathematik und Mechanik 84:12 (2004), 835-842. Wiley.
88. * Martin Kružík: A note on equality of functional envelopes. Mathematica Bohemica 128:2 (2003), 169-178. Matematický ústav AV ČR, v. v. i..
89. * Martin Kružík, Tomáš Roubíček: Specimen shape influence on hysteretic response of bulk ferromagnets. Journal of Magnetism and Magnetic Materials 256:1 (2003), 158-167. Elsevier.
90. * Martin Kružík: Maximum principle based algorithm for hysteresis in micromagnetics. Advances in Mathematical Sciences and Applications 13:2 (2003), 461-485.
91. * Martin Kružík, M. Luskin: The computation of martensitic microstructure with piecewise laminates. Journal of Scientific Computing 19, 293-308. Springer.
92. * Martin Kružík, A. Prohl: Young measure approximation in micromagnetics. Numerische Mathematik 90:2 (2001), 291-307.
93. * Martin Kružík: Bauer's maximum principle and hulls of sets. Calculus of Variations and Partial Differential Equations 11:3 (2000), 321-332.
94. * Martin Kružík, Tomáš Roubíček: Weierstrass-type maximum principle for microstructure in micromagnetics. Zeitschrift für Analysis und Ihre Anwendungen 19:2 (2000), 415-428.
95. * Martin Kružík: On the composition of quasiconvex functions and the transposition. Journal of Convex Analysis 6:1 (1999), 207-213. Heldermann Verlag.
96. * Martin Kružík, Tomáš Roubíček: Optimization problems with concentration and oscillation effects: Relaxation theory and numerical approximation. Numerical Functional Analysis and Optimization 20, 511-530. Taylor & Francis.
97. * Martin Kružík, Tomáš Roubíček: Some geometric properties of the set of generalized Young functionals. Proceedings of the Royal Society of Edinburgh. A - Mathematics 129, 601-616. Royal Society of Edinburgh.
98. * Martin Kružík: DiPerna-Majda measures and uniform integrability. Commentationes Mathematicae Universitatis Carolinae 39:3 (1998), 511-523.
99. * Martin Kružík: Numerical approach to double well problems. SIAM Journal on Numerical Analysis 35:5 (1998), 1833-1849. SIAM Society for Industrial and Applied Mathematics.
100. * Martin Kružík, Tomáš Roubíček: On the measures of DiPerna and Majda. Mathematica Bohemica 122:4 (1997), 383-399. Matematický ústav AV ČR, v. v. i..
101. * Martin Kružík, Tomáš Roubíček: Explicit characterization of Lp-Young measures. Journal of Mathematical Analysis and Applications 198, 830-843. Elsevier.

Conference papers (9)
1. * Martin Kružík, J. Zimmer: Modelling of Thin Martensitic Films with Nonpolynomial Stored Energies. Recent Trends in Dynamical Systems: Proceedings of a Conference in Honor of Jurgen Scheurle - Springer Proceedings in Mathematics and Statistics 35, 587-608. Springer, Basel 2013.   Download
2. * R. Hassdorf, J. Feydt, S. Thienhaus, L. Buforn, Martin Kružík: Probing superelasticity in NiTi-based shape memory thin films and foils. Proceedings of the International Conference on Shape Memory and Superelastic Technologies, 399-407. ASM International, Materials Park 2006.
3. * R. Hassdorf, J. Feydt, S. Thienhaus, N. Conte, Martin Kružík: Spherical load indentation in submicron NiTiCu shape memory thin films. MRS Proceedings. 841. Fundamentals of Nanoindentation and Nanotribology III, 971-976. Material Research Society, Warrendale 2005.
4. * Martin Kružík: Periodicity properties of solutions to a hysteresis model in micromagnetics. Proceedings of the 5th European Conference on Numerical Mathematics and Advanced Applications, 605-614. Springer, Berlin 2004.
5. * Martin Kružík: Rate-independent behavior of ferromagnets. Proceedings in Applied Mathematics and Mechanics (PAMM), 67-70. Wiley, Dresden 2004.
6. * Martin Kružík: Variational models for microstructures in shape memory alloys and in micromagnetics and their numerical treatment. Communications of the Bexbach Colloquium on Science 2000, 20-38. Shaker, Aachen 2003.
7. * Martin Kružík: Quasiconvex extreme points of convex sets. European Conference on Elliptic and Parabolic Problems, 145-151. World Scientific, Singapore 2002.
8. * Tomáš Roubíček, Martin Kružík: Adaptive approximation algorithm for relaxed optimization problems. Proceedings of the Conference Fast Solution of Discretized Optimization Problems, 242-254. Birkhäuser, Basel 2001.
9. * Tomáš Roubíček, Martin Kružík: Numerical treatment of microstructure evolution modeling. Proceedings of the 2nd European Conference on Numerical Mathematics and Advanced Applications, 532-539. World Scientific, Singapore 1998.

Other publications (6)
1. * Martin Kružík, Tomáš Roubíček: Matematické a počítačové modelování aktivních materiálů. Vesmír 88:1 (2009), 21-23. Vesmír.
2. * Martin Kružík, Tomáš Roubíček: Mesoscopic Model of Microstructure Evolution in Shape Memory Alloys with Applications to NiMnGa. Research Report 2003. IMA University of Minnesota, Minneapolis 2004.
3. * Martin Kružík: Quasiconvex Extreme Points of Convex Sets. Research Report 14/2001. Center of Advanced European Studies and Research, Bonn 2001.
4. * Martin Kružík: Maximum Principle Based Algorithm for Hysteresis in Micromagnetics. Research Report 8/2001. Center of Advanced European Studies and Research, Bonn 2001.
5. * Martin Kružík: DiPerna-Majda Measures and Uniform Integrability. Research Report 1494. University of Minnesota, Minneapolis 1997.
6. * Martin Kružík: Numerical Approach to Double Well Problems. Research Report 1485. University of Minnesota, Minneapolis 1997.