| 45 | G. Felsch, N. Ghavidelnia, D. Schwarz, V. Slesarenko. Controlling auxeticity in curved-beam metamaterials via a deep generative model. Computer Methods in Applied Mechanics and Engineering 410, 116032 (2023) | PDF |
| 44 | F. Tauber, V. Slesarenko. Early career scientists converse on the future of soft robotics. Frontiers in Robotics and AI 10, 24 (2023) | PDF |
| 43 | D. Chen, N. Arora, Y. Xiang, J. Li, V. Slesarenko, S. Rudykh. Instability-induced patterns and their post-buckling development in soft particulate composites. Mechanics of Materials 175, 1004482 (2022) | |
| 42 | Skarsetz O., Slesarenko V., Walter A. Programmable auxeticity in hydrogel metamaterials via shape-morphing unit cells. Advanced Science 9, 2201867 (2022) | PDF |
| 41 | Li J., Slesarenko V., Rudykh S. Emergence of instability-driven domains in soft stratified materials. npj Computational Materials 8, 100 (2022) | PDF |
| 40 | Arora N., Qi Y., Slesarenko V., Li J., Galich V. & Rudykh, S. Deformation controlled negative group velocity state in soft composites. Bulletin of the American Physical Society M17.00005 (2021) | |
| 39 | Slesarenko V. Planar mechanical metamaterials with embedded permanent magnets. Materials 13, 1313 (2020) | PDF |
| 38 | Russ J., Slesarenko V., Rudykh S. & Waisman H. Rupture of 3D-printed hyperelastic composites: Experiments and phase field fracture modeling. Journal of the Mechanics and Physics of Solids 140, 103941 (2020) | PDF |
| 37 | Ryvkin M., Slesarenko V., Cherkaev A. & Rudykh S. Fault-tolerant elastic–plastic lattice material. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 378, 20190107 (2020) | PDF |
| 36 | Sharipova A., Slesarenko V. & Gutmanas E. Synthesis of metal-metal oxide (Me-MenOm) nanocomposites by partial reduction and cold sintering. Materials Letters 276, 128197 (2020) | PDF |
| 35 | Arora N., Li J., Slesarenko V. & Rudykh S. Microscopic and long-wave instabilities in 3D fiber composites with non-Gaussian hyperelastic phases. International Journal of Engineering Science 157, 103408 (2020) | PDF |
| 34 | Li J., Pallicity T. D., Slesarenko V., Goshkoderia A. & Rudykh S. Domain Formations and Pattern Transitions via Instabilities in Soft Heterogeneous Materials. Advanced Materials 31, 1807309 (2019) | PDF |
| 33 | Arora N., Batan A., Li J., Slesarenko V. & Rudykh S. On the influence of inhomogeneous interphase layers on instabilities in hyperelastic composites. Materials 12, 763 (2019) | PDF |
| 32 | Li J., Slesarenko V. & Rudykh S. Microscopic instabilities and elastic wave propagation in finitely deformed laminates with compressible hyperelastic phases. European Journal of Mechanics, A/Solids 73, 126–136 (2019) | PDF |
| 31 | Slesarenko V. & Rudykh S. Towards mechanical characterization of soft digital materials for multimaterial 3D-printing. International Journal of Engineering Science 123, 62–72 (2018) | PDF |
| 30 | Slesarenko V. et al. Strategies to control performance of 3D-printed, cable-driven soft polymer actuators: From simple architectures to gripper prototype. Polymers 10, 846 (2018) | PDF |
| 29 | Slesarenko V., Galich P. I., Li J., Fang N. X. & Rudykh S. Foreshadowing elastic instabilities by negative group velocity in soft composites. Applied Physics Letters 113, 031901 (2018) | PDF |
| 28 | Gao C., Slesarenko V., Boyce M. C., Rudykh S. & Li Y. Instability-Induced Pattern Transformation in Soft Metamaterial with Hexagonal Networks for Tunable Wave Propagation. Scientific Reports 8, 11834 (2018) | PDF |
| 27 | Li J., Slesarenko V. & Rudykh S. Auxetic multiphase soft composite material design through instabilities with application for acoustic metamaterials. Soft Matter 14, 6171–6180 (2018) | PDF |
| 26 | Li J., Slesarenko V., Galich P. I. & Rudykh S. Oblique shear wave propagation in finitely deformed layered composites. Mechanics Research Communications 87, 21–28 (2018) | PDF |
| 25 | Li J., Slesarenko V., Galich P. I. & Rudykh S. Instabilities and pattern formations in 3D-printed deformable fiber composites. Composites Part B: Engineering 148, 114–122 (2018) | PDF |
| 24 | Galich P. I., Slesarenko V., Li J. & Rudykh S. Elastic instabilities and shear waves in hyperelastic composites with various periodic fiber arrangements. International Journal of Engineering Science 130, 51–61 (2018) | PDF |
| 23 | Kazarinov N. A., Rudoy E. M., Slesarenko V. Y. & Shcherbakov V. V. Mathematical and Numerical Simulation of Equilibrium of an Elastic Body Reinforced by a Thin Elastic Inclusion. Computational Mathematics and Mathematical Physics 58, 761–774 (2018) | PDF |
| 22 | Slesarenko V., Kazarinov N. & Rudykh S. Distinct failure modes in bio-inspired 3D-printed staggered composites under non-aligned loadings. Smart Materials and Structures 26, 035053 (2017) | PDF |
| 21 | Slesarenko V. & Rudykh S. Microscopic and macroscopic instabilities in hyperelastic fiber composites. Journal of the Mechanics and Physics of Solids 99, 471–482 (2017) | PDF |
| 20 | Slesarenko V., Volokh K. Y., Aboudi J. & Rudykh S. Understanding the strength of bioinspired soft composites. International Journal of Mechanical Sciences 131–132, 171–178 (2017) | PDF |
| 19 | Galich P. I., Slesarenko V. & Rudykh S. Shear wave propagation in finitely deformed 3D fiber-reinforced composites. International Journal of Solids and Structures 110–111, 294–304 (2017) | PDF |
| 18 | Rudoy E. M., Kazarinov N. A. & Slesarenko V. Y. Numerical simulation of equilibrium of an elastic two-layer structure with a through crack. Numerical Analysis and Applications 10, 63–73 (2017) | PDF |
| 17 | Kazarinov N., Smirnov I., Sudenkov Y., Petrov Y. & Slesarenko V. Experimental investigation of dynamic crack propagation in PMMA plates. in Procedia Structural Integrity vol. 6, 83–89 (2017) | PDF |
| 16 | Slesarenko V. & Rudykh S. Harnessing viscoelasticity and instabilities for tuning wavy patterns in soft layered composites. Soft Matter 12, 3677–3682 (2016) | PDF |
| 15 | Kazarinov N. A., Petrov Y. V., Bratov V. A. & Slesarenko V. Y. Numerical investigation of stress intensity factor – crack velocity relation for a dynamically propagating crack. Materials Physics and Mechanics 29, 39–42 (2016) | PDF |
| 14 | Slesarenko V. The Simulation of the Pseudoelastic Behavior for Amorphous-crystalline Shape Memory Alloys. in Materials Today: Proceedings vol. 2 S767–S770 (2015) | PDF |
| 13 | Resnina N., Belyaev S., Slesarenko V. & Shelyakov, A. Influence of crystalline phase volume fraction on the two-way shape memory effect in amorphous-crystalline Ti40.7Hf9.5Ni44.8Cu5 alloy. Materials Science and Engineering A 627, 65–71 (2015) | PDF |
| 12 | Gunderov D. et al. Stability of an Amorphous TiCuNi Alloy Subjected to High-Pressure Torsion at Different Temperatures. Advanced Engineering Materials 17, 1728–1732 (2015) | PDF |
| 11 | Gunderov D. V. et al. Evolution of the amorphous structure in melt-spun Ti50Ni25Cu25 alloy subjected to high pressure torsion deformation. Intermetallics 66, 77–81 (2015) | PDF |