Publications
| Refereed Journals | Refereed Book Chapters | Proceedings | Popular Physics |
| 123 | 5 | 18 | 4 |
Publications in refereed journals
2024
1 . R. Szatmari, A. Nakahara, S. Kitsunezaki, and F. Kun, Scale-free bursting activity in shrinkage induced cracking, Scientific Reports 14, 7101 (2024).
2023
2 . Cs. Szuszik, I. G. Main, and F. Kun, Effect of the loading condition on the statistics of crackling noise accompanying the failure of porous rocks, Royal Society Open Science 10, 230528 (2023).
3 . G. Pal, Zs. Danku, A. Batool, V. Kadar, N. Yoshioka, N. Ito, G. Odor, and F. Kun, Scaling laws of failure dynamics on complex networks, Scientific Reports 13, 19733 (2023).
4 . Zs. Danku, G. Pal, and F. Kun, Size scaling of failure strength at high disorder, Physica A 624, 128994 (2023).
2022
5 . A. Batool, Zs. Danku, G. Pal, and F. Kun, Temporal evolution of failure avalanches of the fiber bundle model on complex networks, Chaos 32, 063121 (2022). Highlighted as Editor' Pick
Chaos
6 . A. Batool, G. Pal, Zs. Danku, and F. Kun, Transition from localized to mean field behaviour of cascading failures
in the fiber bundle model on complex networks, Chaos, Solitons and Fractals 159, 112190 (2022).
7 . V. Kadar, Zs. Danku, G. Pal, and F. Kun, Approach to failure through record breaking avalanches in a heterogeneous stress field, Physica A 594, 127015 (2022).
2021
8 . A. Hansen, F. Kun, S. Pradhan, and P. Ray, Editorial: The Fiber Bundle,
Frontiers in Physics 9, 667 (2021).
9 . R. Szatmari, Z. Halasz, A. Nakahara, S. Kitsunezaki, and F. Kun, Evolution of anisotropic crack patterns in shrinking material layers,
Soft Matter 17, 10005 (2021).
Highlighted on the cover of the journal
Soft Matter
10 . G. Pal, G. Domokos, and F. Kun, Curvature flows, scaling laws and the geometry of attrition under impacts,
Scientific Reports 11, 20661 (2021).
11 . Z. Halasz, I. Kallai, and F. Kun, Stick-Slip Dynamics in Fiber Bundle Models with Variable Stiffness and Slip Number,
Frontiers in Physics 9, 8 (2021).
2020
12 . A. Batool, G. Pal, and F. Kun, Impact-induced transition from damage to perforation,
Physical Review E 102, 042116 (2020).
13 . G. Domokos, D. J. Jerolmack, F. Kun, and J. Torok, Plato's cube and the natural geometry of fragmentation,
Proceedings of the National Academy of Sciences 117, 18178 (2020).
Highlighted in
National Geographics Index
14 . V. Kadar, G. Pal, and F. Kun, Record statistics of bursts signals the onset of acceleration towards failure,
Scientific Reports 10, 2508 (2020).
2019
15 . V. Kadar and F. Kun, System-size-dependent avalanche statistics in the limit of high disorder,
Physical Review E 100, 053001 (2019).
16 . F. Kun, G. Pal, I. Varga, and I.G. Main,
Effect of disorder on the spatial structure of damage in slowly compressed porous rocks,
Philosophical Transactions of the Royal Society A 377, 20170393 (2019).
2018
17 . Zs. Danku, G. Odor, and F. Kun,
Avalanche dynamics in higher-dimensional fiber bundle models ,
Physical Review E 98, 042126 (2018).
18 . R. Körei and F. Kun,
Time-dependent fracture under unloading in a fiber bundle model,
Physical Review E 98, 023004 (2018).
2017
19 . V. Kadar, Zs. Danku, F. Kun,
Size scaling of failure strength with fat-tailed disorder in a fiber bundle model,
Physical Review E 96, 033001 (2017) .
20 . Z. Halasz, A. Nakahara, S. Kitsunezaki, and F. Kun,
Effect of disorder on shrinkage-induced fragmentation of a thin brittle layer,
Physical Review E 96, 033006 (2017).Highlighted as
Editors' Suggestion
21 . I.G. Main, F. Kun, and A.F. Bell,
Crackling Noise in Digital and Real Rocks--Implications for Forecasting Catastrophic Failure in Porous Granular Media,
in E. Salje, A. Saxena, and A. Planes (eds.), Avalanches in Functional Materials and Geophysics, pages 77-97 (Springer International Publishing, 2017).
2016
22 . G. Pal, Z. Janosi, F. Kun, and I.G. Main,
Fragmentation and shear band formation by slow compression of brittle porous media,
Physical Review E 94, 053003 (2016).
Highlighted as
Editors' Suggestion
23 . G. Pal, and F. Kun,
Mass-velocity correlation in impact induced fragmentation of heterogeneous solids,
Granular Matter 18, 74 (2016).
24 . Zs. Danku and F. Kun,
Fracture process of a fiber bundle with strong disorder,
Journal of Statistical Mechanics: Theory and Experiment 2016, 073211 (2016).
25 . G. Pal, F. Raischel, S. Lennartz-Sassinek, F. Kun, and I. G. Main,
Record-breaking events during the compressive failure of porous materials,
Physical Review E 93, 033006 (2016).
26 . E. Karpas and F. Kun,
Blending stiffness and strength disorder can stabilize fracture,
Physical Review E 93, 033002 (2016).
2015
27 . Zs. Danku, F. Kun, and H. J. Herrmann,
Fractal frontiers of bursts and cracks in a fiber bundle model of creep rupture,
Physical Review E 92, 062402 (2015).
28 . N. Yoshioka, F. Kun, and N. Ito,
Kinetic Monte Carlo Algorithm for thermally induced breakdown of fiber bundles,
Physical Review E 91, 033305 (2015).
29 . G. Domokos, F. Kun, A. A. Sipos, and T. Szabo,
Universality of fragment shapes,
Scientific Reports 5, 9147 (2015).
Highlighted in
Index
30 . Zs. Danku, Gy. B. Lenkey, and F. Kun,
Statistical features of magnetic noise in mixed-type impact fracture
,
Applied Physics Letters 106, 064102 (2015).
2014
31 . H.A. Carmona, F.K. Wittel, and F. Kun,
From fracture to fragmentation with discrete
element modeling,
European Physical Journal Special Topics 223, 2369 (2014).
32 . G. Pal, I Varga, and F. Kun,
Emergence of energy dependence in the fragmentation of heterogeneous
materials,
Physical Review E 90, 062811 (2014).
33 . F. Kun, I. Varga, S. Lennartz-Sassinek, and I. G. Main,
Rupture Cascades in a Discrete Element Model of a Porous Sedimentary Rock,
Physical Review Letters 112, 065501 (2014).
Highlighted in
Physics Focus |
Physik
Journal
34 . Zs. Danku and F. Kun,
Record breaking bursts in a fiber bundle model of creep rupture,
Frontiers in Physics 2, 8 (2014).
35 . Z. Halász, F. van Steeden, and F. Kun,
Transition from Straight to Fractal Cracks due to Projectile Penetration,
Key Engineering Materials 592, 765 (2014).
36 . G. Pál, I. Varga, and F. Kun,
Mass-Velocity Correlation in Impact Fragmentation,
Key Engineering Materials 592, 141 (2014).
37 . Zs. Danku and F. Kun,
Temporal and Spatial Evolution of Bursts in a Fiber Bundle Model of Creep Rupture,
Key Engineering Materials 592, 773 (2014).
2013
38 . F. Kun, I. Varga, S. Lennartz-Sassinek, and I. G. Main,
Approach to failure in porous granular materials under compression,
Physical Review E 88, 062207 (2013).
Highlighted as
Physics Focus
39 . S. Lennartz-Sassinek, Z. Danku, F. Kun, I. G. Main, and M.
Zaiser, Damage growth in fibre bundle models with localized
load sharing and environmentally-assisted ageing,
Journal of Physics: Conference Series 410, 012064 (2013).
40 . Zs. Danku and F. Kun,
Creep rupture as a non-homogeneous Poissonian process,
Scientific Reports 3, 2688 (2013).
41 . Zs. Danku and F. Kun,
Temporal and Spacial Evolution of Bursts in Creep Rupture,
Physical Review Letters 111, 084302 (2013).
Highlighted as
Cover page of PRL |
Index |
Radio interview
42 . S. Lennartz-Sassinek, I. G. Main, Zs. Danku, and F. Kun,
Time evolution of damage due to environmentally assisted aging in a fiber bundle model,
Physical Review E 88, 032802 (2013).
43 . K. Kovács, R. C. Hidalgo, I. Pagonabarraga, and F. Kun,
Brittle-to-ductile transition in a fiber bundle with strong heterogeneity,
Physical Review E 87, 042816 (2013).
2012
44 . G. Timár, F. Kun, H. A. Carmona, and H. J. Herrmann,
Scaling laws for impact fragmentation of spherical solids,
Physical Review E 86, 016113 (2012).
45 . Z. Halász, Zs. Danku, and F. Kun,
Competition of strength and stress disorder in creep rupture,
Physical Review E 85, 016116 (2012).
Highlighted in
Kaleidoscope of PRE
46 . N. Yoshioka, F. Kun, and
N. Ito, Time evolution of damage in thermally induced creep
rupture, Europhysics Letters 97, 26006 (2012).
2011
47 . G. Villalobos-Camargo, F. Kun, and
J. D. Munoz, Effect of disorder on temporal fluctuations in
drying induced cracking,
Physical Review E 84, 041114 (2011).
48 . G. Kocsis and F. Kun, Competition of information channels
in the spreading of innovations, Physical Review E 84, 026111 (2011).
49 . E. Karpas and F. Kun,
Disorder induced brittle to quasi-brittle transition in fiber bundles,
Europhysics Letters 95, 16004 (2011).
50 . A. Yamamoto, F. Kun, and S. Yukawa,
Micro-structure of damage
in thermally activated fracture of Lennard-Jones systems,
Physical Review E 83, 066108 (2011).
51 . G. Pal, F. Kun, I. Varga, D. Sohler, and G. Sun,
Attraction driven aggregation of dipolar particles
in an external magnetic field, Physical Review
E 83, 061504 (2011).
52 . G. Villalobos-Camargo, F. Kun, D. L. Linero, and
J. D. Munoz, Size distribution and waiting times for
the avalanches of the Cell Network Model of Fracture,
Computer Physics Communications 182, 1824 (2011).
53 . G. Timar and F. Kun, Crackling noise in
three-point bending of heterogeneous materials, Physical Review
E 83, 046115 (2011).
54 . G. Sun, K. Lu, and F. Kun, Percolation Induced
Conductor-Insulator Transition in the System of Metal Spheres
in Dielectric Fluids, Physical Review E 83, 041405 (2011).
2010
55 . Z. Halasz, G. Timar, and F. Kun, The effect of
disorder on crackling noise in fracture phenomena,
Progress of Theoretical Physics 184, 385 (2010).
56 . N. Yoshioka, F. Kun, and N. Ito, Kertesz line of
thermally activated breakdown phenomena, Physical Review E 82,
055102(R) (2010).
57 . G. Timar, J. Blomer, F. Kun, and H. J. Herrmann,
New universality class for the fragmentation of plastic
materials, Physical Review Letters 104, 095502 (2010).
Highlighted as
Cover page of PRL
58 . Z. Halasz and F. Kun, Slip avalanches in a fiber
bundle model, Europhysics Letters 89, 26008 (2010).
2009
59 . R. C. Hidalgo, F. Kun, K. Kovacs, and I.
Pagonabarraga, Avalanche dynamics in fiber bundle models,
Physical Review E 80, 051108 (2009).
60 . Z. Halasz and F. Kun, Fiber bundle model with
stick-slip dynamics, Physical Review E 80, 027102 (2009).
61 . F. Kun, Z. Halasz, J. S. Andrade Jr., and H. J.
Herrmann, Crackling noise in sub-critical fracture of
heterogeneous materials, Journal of Statistical Mechanics: Theory and
Experiment P01021 (2009).
62 . M. Suzuki, F. Kun, and N. Ito, Cluster-cluster
aggregation of Ising dipolar particles under thermal noise, Physical
Review E 80, 021402 (2009).
2008
63 . M. Suzuki, F. Kun, and N. Ito, Thermodynamics of a
binary monolayer of Ising dipolar particles. II. Effect of relative
moment, Physical Review E 78, 041118 (2008).
64 . N. Yoshioka, F. Kun, and N. Ito, Size scaling and
bursting activity in thermally activated breakdown of fiber bundles,
Physical Review Letters 101, 145502 (2008).
65 . F. Kun, H. A. Carmona, J. S. Andrade Jr., and H. J.
Herrmann, Universality behind Basquin's law of fatigue, Physical
Review Letters 100, 094301 (2008).
Highlighted as
Physical Review Focus
66 . H. A. Carmona, F. Wittel, F. Kun, and H. J.
Herrmann, Fragmentation processes in impact of spheres,
Physical Review E 77, 051302 (2008).
67 . F. Raischel, F. Kun, and H. J. Herrmann,
Continuous damage fiber bundle model for strongly disordered
materials, Physical Review E 77, 046102 (2008) .
68 . K. Kovacs, S. Nagy, R. C. Hidalgo, F. Kun, H. J.
Herrmann, and I. Pagonabarraga, Critical ruptures in a bundle of
slowly relaxing fibers, Physical Review E 77, 036102 (2008).
69 . R. C. Hidalgo, K. Kovacs, I. Pagonabarraga, and F.
Kun, Universality class of fiber bundles with strong heterogeneities,
Europhysics Letters 81, 54005 (2008).
70 . F. Wittel, H. A. Carmona, F. Kun, and H. J. Herrmann,
Mechanisms in impact fragmentation,
International Journal of Fracture 154, 105 (2008).
71 . F. Kun and S. Nagy, Damage process of a fiber
bundle with a strain gradient, Physical Review E 77, 016608
(2008).
72 . G. Kocsis and F. Kun, Effect of network topologies
on the spreading of technological developments, Journal of
Statistical Mechanics: Theory and Experiment, P10014, (2008).
2007
73 . M. Suzuki, F. Kun, S. Yukawa, and N. Ito,
Thermodynamics of a binary monolayer of Ising dipolar particles,
Physical Review E 76, 051116 (2007).
74 . F. Kun, G. Kocsis, and J. Farkas, Cellular
automata for the spreading of technological developments in
socio-economic systems, Physica A 383, 660 (2007).
75 . I. Varga, F. Kun, N. Ito, and W. Wen, Molecular Crystalline States in
Binary Dipolar Monolayers,
Journal of Statistical Mechanics:Theory and Experiment P11014
(2007).
76 . I. Varga, N. Yoshioka, F. Kun, S. Gang, and N. Ito,
Structure and Kinetics of Heteroaggregation in Binary Dipolar
Monolayers, Journal of Statistical
Mechanics:Theory and Experiment P09015 (2007).
77 . H. Carmona, F. Kun, J. S. Andrade Jr., and H. J.
Herrmann, Computer simulation of fatigue under diametrical
compression, Physical Review E 75, 046115 (2007)
78 . F. Kun, M.H.A.S. Costa, R.N. Costa Filho, J. S.
Andrade Jr., S. Zapperi, and H. J. Herrmann, Fatigue fracture
of disordered materials, Journal of Statistical Mechanics: Theory
and Experiment, P02003 (2007).
2006
79 . I. Varga and F. Kun, Pattern formation in binary colloids,
Philosophical Magazine 86, 2011 (2006).
80 . F. Raischel, F. Kun, and H. J. Herrmann, Local
load sharing fiber bundles with a lower cutoff of strength disorder,
Physical Review E 74, 035104(R) (2006).
81 . F. Raischel, F. Kun, and H. J. Herrmann, Failure
process of a bundle of plastic fibers, Physical Review E 73,
066101 (2006).
82 . H. J. Herrmann, F. K. Wittel, and F. Kun,
Fragmentation, Physica A 371, 59 (2006).
83 . F. K. Wittel, F. Kun, H. J. Herrmann, and B.-H.
Kroplin, Study on the fragmentation of shells, International
Journal of Fracture 140, 255 (2006).
84 . F. Kun, F. Raischel, R. C. Hidalgo, and H. J.
Herrmann, Extension of Fiber Bundle Models for Creep Rupture and
Interface Failure, International Journal of Fracture 140, 243
(2006).
85 . F. Kun, F. K. Wittel, H. J. Herrmann, B.-H.
Kroplin, and K.-J. Maloy, Scaling behaviour of fragment
shapes, Physical Review Letters 96, 025504 (2006).
2005
86 . N. Yoshioka, I. Varga, F. Kun, S. Yukawa, and N. Ito,
Attraction-limited cluster-cluster aggregation of Ising dipolar
particles, Physical Review E 72, 061403 (2005).
87 . F. Raischel, F. Kun, and H. J. Herrmann, Simple
beam model for the shear failure of interfaces, Physical Review E
72, 046126 (2005).
88 . I. Varga, H. Yamada, F. Kun, H.-G. Matuttis, and N.
Ito, Structure formation in a binary monolayer of dipolar
particles, Physical Review E 71, 051405 (2005).
89 . B. Behera, F. Kun, S. McNamara, and H. J. Herrmann,
Fragmentation of a circular disc by impact on a frictionless
plate, Journal of Physics-Condensed Matter 17, 2439 (2005).
90 . R. C. Hidalgo, F. Kun, and H. J. Herrmann, Slow
relaxation of fiber composites, variable range of interaction
approach, Physica A 347, 402 (2005).
91 . F. K. Wittel, F. Kun, H. J. Herrmann, and B.-H. Kroplin,
Break-up of shells under explosion and impact, Physical Review
E 71, 016108 (2005).
2004
92 . F. K. Wittel, F. Kun, H. J. Herrmann, and B.-H. Kroplin,
Fragmentation of shells, Physical Review Letters 93,
035504 (2004).
93 . F. Kun, Gy. B. Lenkey, N. Takacs, D. L. Beke,
Structure of magnetic noise in dynamic fracture,
Physical Review Letters 93, 227204 (2004).
94 . I. Varga, F. Kun, and K. F. Pal, Structure formation
in binary colloids, Physical Review E 69, 030501(R) (2004).
2003
95 . O. E. Yewande, Y. Moreno, F. Kun, R. C.
Hidalgo, and H. J. Herrmann, Time evolution of damage under
variable ranges of load transfer, Physical Review E 68,
026116 (2003).
96 . F. Kun, Y. Moreno, R. C. Hidalgo, H. J. Herrmann,
Creep rupture has two universality classes, Europhysics Letters
63, 347 (2003).
97 . F. Kun, R. C. Hidalgo, H. J. Herrmann, and K. F.
Pal, Scaling laws of creep rupture of fiber bundles,
Physical Review E 67, 061802 (2003).
98 . F. Wittel, F. Kun, B.-H. Kroplin, and H. J. Herrmann,
A study of transverse ply cracking using a discrete element
method, Computational Materials Science 28, 608 (2003).
99 . F. Wittel, J. Schulte-Fischedick, F. Kun, B.-H.
Kroplin, and M. Friesz, Discrete element simulation of
transverse cracking during the pyrolysis of carbon fibre
reinforced plastics to carbon/carbon composites,
Computational Materials Science 28, 1 (2003).
100 . G. Dill-Langer, R. Cruz Hidalgo, F. Kun, Y. Moreno, S.
Aicher, and H. J. Herrmann, Size dependency of tension
strength in natural fiber composites, Physica A 325,
547 (2003).
2002
101 . R. C. Hidalgo, C. U. Grosse, F. Kun, H. W.
Reinhardt, and H. J. Herrmann, Evolution of percolating
force chains in compressed granular media, Physical
Review Letters 89, 205501 (2002).
102 . H. J. Herrmann, R. C. Hidalgo, and F. Kun,
Restructuring of force networks, European Physical Journal
E 9, 261 (2002).
103 . G. A. D'Addetta, F. Kun, and E. Ramm, On the application
of a discrete model to the fracture process of cohesive granular
materials, Granular Matter 4, 77 (2002).
104 . R. C. Hidalgo, Y. V. Moreno, F. Kun, and H. J. Herrmann,
Fracture model with variable range of interaction,
Physical Review E 65, 046148 (2002).
105 . R. C. Hidalgo, F. Kun, and H. J. Herrmann, Creep
rupture of viscoelastic fiber bundles, Physical Review E 65,
032502 (2002).
2001
106 . R. C. Hidalgo, F. Kun, and H. J. Herrmann, Bursts in
a fiber bundle model with continuous damage,
Physical Review E 64, 066122 (2001).
107 . F. Kun, W. Wen, K. F. Pal, and K. N. Tu, Break-up
of dipolar rings under a perpendicular magnetic field,
Physical Review E 64, 061503 (2001).
2000
108 . F. Kun, K. F. Pal, W. Wen, and
K. N. Tu, Break-up of dipolar rings under an external magnetic
field, Physics Letters A 277, 287 (2000).
109 . F. Kun, S. Zapperi, and H. J. Herrmann, Damage
in Fiber Bundle Models, European Physical Journal B 17,
269 (2000).
110 . F. Kun, and H. J. Herrmann, Damage development
under gradual loading of composites, Journal of
Materials Science 35, 4685 (2000).
1999
111 . W. Wen, F. Kun, K. F. Pal, D. W. Zheng, and
K. N. Tu, Aggregation kinetics and stability of
structures formed by magnetic microspheres,
Physical Review E 59, R4758 (1999).
112 . F. Kun and H. J. Herrmann, Transition from damage
to fragmentation in collision of solids,
Physical Review E 59, 2623 (1999).
113 . F. Kun, G. A. D'Addetta, H. J. Herrmann and E. Ramm,
Two-dimensional dynamic simulation of fracture and
fragmentation of solids, Computer Assisted Mechanics and Engineering
Sciences 6, 385 (1999).
1998
114 . F. Kun and K. F. Pal, Simulating fractal pattern formation
in metal-oil electrorheological fluids,
Physical Review E 57, 3216 (1998).
1997
115 . F. Kun and G. Bardos, Internal Anisotropy of Collision
Cascades, Physical Review E 56, 2019 (1997).
116 . F. Kun and G. Bardos, Fractal Dimension of Collision
Cascades, Physical Review E 55, 1508 (1997).
1996
117 . F. Kun and H. J. Herrmann, Fragmentation of Colliding Discs,
International Journal of Modern Physics C 7,
837 (1996).
118 . F. Kun and H. J. Herrmann, A study of fragmentation processes
using a discrete element method, Computer Methods in Applied Mechanics
and Engineering 138, 3 (1996).
1995
119 . F. Kun, H. Sorge, K. Sailer, G. Bardos and W. Greiner,
Sandbox method for factorial moments and anomalous fractal dimensions,
Physics Letters B 355, 349 (1995).
1994
120 . F. Kun , H. Sorge, K. Sailer, M. Hofmann, G. Bardos and W. Greiner,
Effect of Bose-Einstein Correlations on Intermittency in Ultrarelativistic
Nucleus-Nucleus Collisions, Physics Letters B 333, 233 (1994).
121 . F. Kun and G. Bardos, Multiscaling and Multifractality in Collision Cascades, Physical Review E 50, 2639 (1994).
1992
122 . G. Bardos and F. Kun, Intermittency in Low Energy Collision Cascades, Physics Letters A 165, 401 (1992).
123 . G. Bardos and F. Kun, Collision Cascades as Multifractals, Materials Science Forum 97, 127 (1992).
| Refereed Journals | Proceedings |
Refereed Book Chapters
- 1. G. Kocsis and F. Kun, Cellular automata modelling of the
diffusion of innovations, Chapter 16. in A. Salcido (editor),
Cellular Automata - Simplicity behind complexity, Intech Publishing, pp. 337
(2011).
- 2. F. Kun, Fiber Bundle Models for creep rupture
analysis of composite materials, Chapter 10 in R. J. S. C. de
Miranda Guedes (editor), Creep and fatigue in polymer matrix
composites, Woodhead Publishing Co., pp. 325 (2011).
- 3.F. Raischel, F. Kun, R. C. Hidalgo, and H. J. Herrmann,
Statistical Damage Models: Fiber Bundle Models, in Damage and its Evolution
in Fiber-Composite Materials: Simulation and Non-Destructive Evaluation,
G. Busse, B.H. Kroeplin, F.K. Wittel (Eds.), pp. 443-471 (2006).
- 4. G. A. D'Addetta, F. Kun, E. Ramm, H. J. Herrmann, From
solids to granulates - Discrete element simulations of fracture and fragmentation processes in geomaterials, Continuous and discontinuous modelling of cohesive-frictional materials, Lecture
Notes in Physics (LNP) 568, pp. 231-258 (2001) Springer Verlag, Berlin.
- 5. F. Kun, F. Raischel, R. C. Hidalgo, and H. J. Herrmann,
Extensions of fiber bundle models, Modelling Critical and Catastrophic Phenomena in Geoscience: A Statistical Physics Approach, Lecture Notes in Physics (LNP) 705, Springer Verlag, Berlin (2006), pp. 57-92.
Proceedings Papers
- 1. S. Lennartz-Sassinek, Z. Danku, F. Kun, I. G. Main, and M. Zaiser,
Damage growth in fibre bundle models with localized load sharing and
environmentally-assisted ageing, appearing in the Journal of Physics: Conference Series
(Proceedings of the International Conference on Mathematical Modeling
in Physical Sciences, September 3-7, 2012 Budapest, Hungary).
- 2. F. Kun, G. Timar, J. Blomer, and H. J. Herrmann,
Universality class of the fragmentation of plastic materials,
In Proceedings of II. International Conference on Particle-based Methods -
Fundamentals and Applications, PARTICLES 2011, 19-23 October, 2011,
Barcelona, Spain. Editors: E. Onate and D.R.J. Owen.
- 3.I. Varga and F. Kun, Computer method for modeling the
micro-structure of aerogels, in Proceeding of Computer Methods in Mechanics
(CMM 2011), 9-12 May, 2011, Warsaw, Poland.
- 4. G. Timar and F. Kun, Computer simulation of the three-point
bending of heterogeneous materials, In Proceeding of 18th conference on
Computer Methods in Materials Technology, January 16-19, 2011,
Zakopane, Poland, 174-182 (2011).
- 5. H. J. Herrmann, F. Kun, and F. Raischel, Some New
Results on Fibre Models, IUTAM Symposium on Scaling in Solid
Mechanics, JUN 25-29, 2007 Cardiff, WALES,
Solid Mechanics and its Applications, IUTAM Bookseries 10, 263-272 (2009).
- 6. N. Yoshioka, I. Varga, F. Kun, S. Yukawa, and N. Ito,
Attraction-limited Cluster-Cluster Aggregation of Ising Dipolar
Particles, 19th Workshop on Recent Developments in Computer
Simulation Studies in Condensed Matter Physics, FEB 20-24, 2006 University of
Georgia, Athens, GA, Computer Simulation Studies in Condensed Matter
Physics XIX, Springer Proceedings in Physics 123, 106-111
(2009).
- 7. Z. Halasz and F. Kun, Fiber bundle model with
stick-slip dynamics, in Proceedings of Multiscale Materials Modelling
(MMM2006), International Conference, September 18-22, Freiburg,
Germany, pp. 321-323.
- 8.K. Kovacs and F. Kun,
Fragment masses and velocities in impact, in Proceedings of Multiscale Materials Modelling
(MMM2006), International Conference, September 18-22, 2006, Freiburg,
Germany, pp. 326-329.
- 9. F. Kun, F. Raischel, J. S. Andrade Jr., and H. J.
Herrmann, Fiber models for the failure of composite materials,
in Proceedings of Multiscale Materials Modelling (MMM2006),
International Conference, September 18-22, 2006, Freiburg, Germany, pp. 334-341.
- 10. F. Raischel, F. Kun, Hans J. Herrmann, Fiber bundle
models for composite materials, NDT.net 11, Number 12 (2006).
Special volume of NDT.net for the Proceedings of the conference Damage in Composite
Materials: Simulation and Non-Destructive Testing,
18-20 September 2006, Stuttgart, Germany.
- 11. F. K. Wittel, F. Kun, H. J. Herrmann, B.-H. Kroplin,
Fragmentation of Shell-Like Systems, in Proceedings of
International Conference on Space Debris, 15-18 March 2005, Darmstadt,
Germany.
- 12. G. A. D'Addetta, F. Kun, E. Ramm, Fracture simulation
of cohesive frictional materials by discrete element models,
Proceedings of the Fourth International Conference on
Analysis of Discontinuous Deformation - ICADD 4, Glasgow,
Scotland, UK, 6-8 June 2001.
- 13. G. A. D'Addetta, E. Kuhl, F. Kun, and E. Ramm,
Micromechanical modelling of concrete cracking,
Proceedings of European Conference on Computational Mechanics,
Munchen, Germany, 1999.
- 14. F. Kun, H. Sorge, K. Sailer, M. Hofmann, G. Bardos and
W. Greiner, The Role of Bose-Einstein Correlations on
Intermittency in Ultrarelativistic Nucleus-Nucleus Collisions,
Proceedings of the HADRON '94 Conference, Uzhgorod, 1994.
- 15. F. Kun, G. Bardos, B. Ivanyi, K. Sailer, M. Hoffman
and R. Mattiello, Intermittency in high-energy heavy-ion
collisions, Proceedings
of Gross Properties of Nuclei and Nuclear Excitations International
Workshop XXI. Hirschegg, Austria, 287 (1993).
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