Research area:
- Phase-field modeling of brittle fracture in metal-ceramic composites
- Advance structural theories (e.g. zigzag theories, imperfectly bonded laminates, etc.)
- Delamination and interfacial debonding
- Finite element modeling
- Non-local elasticity for statics, dynamics, stability, and fracture of nanostructures
Other information:
Served as reviewer for
- Ocean Engineering
- Engineering Failure Analysis
- International Journal of Damage Mechanics
Ph.D. thesis: Multiscale modeling of delamination fracture in multilayered structures (2018)
M.Sc. thesis: Effect of equal channel angular pressing on fracture toughness of Al-7075 (2012)
B.Sc. thesis: Effects of initial crack geometry on fracture behavior of marble (2009)
Contact:
telephone: (+48) 22 826 12 81 ext.: 437
room: 146
Email: hdarban@ippt.pan.pl
Main publications:
|
Article title
|
Authors
|
Journal
|
|
|
1.
|
Softening and Stiffening Size Effects in Free Flexural Vibration of Small-scale Cracked Beams |
A. Hassanpour, H. Darban (2025)
|
Journal of Sound and Vibration, In-Press
|
|
2.
|
Flexural frequency analysis of damaged beams using mixture unified gradient elasticity theory |
S. Faghidian, H. Darban (2025)
|
Composite Structures, 363, pp.119143-1-119143-17
|
|
3.
|
Atomistic insights into tensile damage of functionally Graded Al-SiC composites |
M. Fathalian, H. Darban, E. Postek (2025)
|
International Journal of Mechanical Sciences , 288, pp.110012-1-110012-16
|
|
4.
|
Non-standard interface conditions in flexure of mixture unified gradient Nanobeams |
S. Ali Faghidian, H. Darban (2024)
|
International Journal of Engineering Science , 204, 104127
|
|
5.
|
Elastostatics of nonuniform miniaturized beams: Explicit solutions through a nonlocal transfer matrix formulation |
H. Darban (2024)
|
International Journal of Engineering Science , 198, 104054
|
|
6.
|
Experimental Evaluation and Phase-Field Model of Fracture Behavior of Alumina-Aluminium Graded Composite |
H. Darban, K. Bochenek, W. Węglewski, M. Basista (2024)
|
Advanced Structured Materials pp. 147-166
|
|
7.
|
Effects of multiple edge cracks, shear force, elastic foundation, and boundary conditions on bucking of small-scale pillars |
H. Darban, R. Luciano, M. Basista (2023)
|
International Journal of Damage Mechanics
|
|
8.
|
Calibration of the length scale parameter for the stress-driven nonlocal elasticity model from quasi-static and dynamic experiments |
H. Darban, R. Luciano, M. Basista (2023)
|
Mechanics of Advanced Materials and Structures 30(17) pp. 3518- 3524
|
|
9.
|
Size effect in ultrasensitive micro- and nanomechanical mass sensors |
H. Darban (2023)
|
Mechanical Systems and Signal Processing, 200, 110576
|
|
10.
|
Buckling of cracked micro- and nanocantilevers |
H. Darban, R. Luciano, R. Darban (2022)
|
Acta Mechanica, 234, 693-704
|
| 11. | H. Darban, R. Luciano, A. Caporale, M. Basista (2022) | Compsite Structures, 297, 115907 | |
| 12. | Calibration of the length scale parameter for the stress-driven nonlocal elasticity model from quasi-static and dynamic experiments | H. Darban, R. Luciano, M. Basista (2022) | Mechanics of Advanced Materials and Structures, 30, 3518-3524 |
| 13. | Free transverse vibrations of nanobeams with multiple cracks | H. Darban, R. Luciano, M. Basista (2022) | International Journal of Engineering Science, 177, 103703 |
| 14. | Experimental determination of the length scale parameter for the phase-field modeling of macroscale fracture in Cr-Al2O3 composites fabricated by powder metallurgy | H. Darban, K. Bochenek, W. Węglewski, M. Basista (2022) | Metallurgical and Materials Transactions A, 53, 2300-2322 |
|
15.
|
A. Caporale, H. Darban, R. Luciano (2022)
|
International Journal of Engineering Science, 103620-1-17 | |
|
16.
|
H. Darban, A. Caporale, R. Luciano (2021)
|
European Journal of Mechanics - A/Solids 86, 104193 | |
|
17.
|
F. Ceroni, H. Darban, N. Caterino, R. Luciano (2021)
|
Construction and Building Materials 267, 121707 | |
|
18.
|
F. Fabbrocino, H. Darban, R. Luciano (2020)
|
Mechanics Research Communications 109, 103595 | |
|
19.
|
S. Vantadori, R. Lucian, D. Scorza, H. Darban (2020)
|
Mechanics of Advanced Materials and Structures | |
|
20.
|
H. Darban, F. Fabbrocino, R. Luciano (2020)
|
International Journal of Engineering Science 157, 103381 | |
|
21.
|
R. Luciano, H. Darban, C. Bartolomeo, F. Fabbrocino, D. Scorza (2020)
|
Mechanics Research Communications 107, 103536
|
|
|
22.
|
R. Luciano, A. Caporale, H. Darban, C. Bartolomeo (2020)
|
Mechanics Research Communications 103, 103470
|
|
|
23.
|
H. Darban, R. Luciano, A. Caporale, F. Fabbrocino (2020)
|
International Journal of Engineering Science 154, 103338
|
|
|
24.
|
H. Darban, F. Fabbrocino, L. Feo, R. Luciano (2020)
|
Mechanics of Advanced Materials and Structures, 1-9
|
|
|
25.
|
F. Ceroni, H. Darban, R. Luciano (2020)
|
Composite Structures 241, 112099
|
|
|
26.
|
A. Caporale, H. Darban, R. Luciano (2020)
|
Mechanics of Advanced Materials and Structures, 1-11
|
|
|
27.
|
R. Massabò, H. Darban (2019)
|
Engineering Fracture Mechanics 213, 280-301
|
|
|
28.
|
R. Massabò, H. Darban (2019)
|
Procedia Structural Integrity 18, 484-489
|
|
|
29.
|
H. Darban, R. Massabò (2018)
|
Multiscale and Multidisciplinary Modeling, Experiments and Design 1(4), 269-290
|
|
|
30.
|
H. Darban, R. Massabò (2018)
|
Meccanica 53(3), 553-571
|
|
|
31.
|
1 - 2D thermo-elastic solutions for laminates and sandwiches with interlayer delaminations and imperfect thermal contact. In: Lopresto, V., Langella, A., Abrate, S. (eds.)
|
H. Darban, R. Massabò (2017)
|
Dynamic Response and Failure of Composite Materials and Structures. pp. 3-46. Woodhead Publishing
|
|
32.
|
H. Darban, B. Mohammadi, F. Djavanroodi (2016)
|
Engineering Failure Analysis 65, 1-10
|
|
|
33.
|
H. Darban, M. Nosrati, F. Djavanroodi (2015)
|
International Journal of Damage Mechanics 24(7), 1013-1025
|
|
|
34.
|
H. Darban, M. Haghpanahi, A. Assadi (2011)
|
Computational Materials Science 50(5), 1667-1674
|