51G. Felsch, V. Slesarenko. Generative models struggle with kirigami metamaterials (arXiv)PDF
50V. Slesarenko, L. Pastewka. The bumpy road to friction control. Science 6679, 150-151 (2024)PDF
49I. Joedicke, N. Ghavidelnia, G. Felsch, V. Slesarenko. Addressing manufacturing defects in architected materials via anisotropy: minimal viable case. Acta Mechanica (2024)PDF
48D Schwarz, G Felsch, F Tauber, S Schiller, V Slesarenko. Exploiting self-contact in mechanical metamaterials for new discrete functionalities. Materials & Design 236 112468 (2023)PDF
47V. Slesarenko. Bandgap structure in elastic metamaterials with curvy Bezier beams. Applied Physics Letters 123 081702 (2023)PDF
46Q. Song, Y. Chen, V. Slesarenko, P. Zhu, A. Hamza, P. Hou, D. Helmer, F. Kotz-Helmer, B. Rapp. 4D Printed Shape-Memory Elastomer for Thermally Programmable Soft Actuators. ACS Applied Materials & Interfaces 15 (34), 40923-40932 (2023) PDF
45G. 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
44F. Tauber, V. Slesarenko. Early career scientists converse on the future of soft robotics. Frontiers in Robotics and AI 10, 24 (2023)PDF
43D. 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)
42Skarsetz O., Slesarenko V., Walter A. Programmable auxeticity in hydrogel metamaterials via shape-morphing unit cells. Advanced Science 9, 2201867 (2022)PDF
41Li J., Slesarenko V., Rudykh S. Emergence of instability-driven domains in soft stratified materials. npj Computational Materials 8, 100 (2022)PDF
40Arora 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)
39Slesarenko V. Planar mechanical metamaterials with embedded permanent magnets. Materials 13, 1313 (2020)PDF
38Russ 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
37Ryvkin 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
36Sharipova 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
35Arora 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
34Li 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
33Arora 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
32Li 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
31Slesarenko V. & Rudykh S. Towards mechanical characterization of soft digital materials for multimaterial 3D-printing. International Journal of Engineering Science 123, 62–72 (2018)PDF
30Slesarenko 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
29Slesarenko 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
28Gao 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
27Li 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
26Li 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
25Li 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
24Galich 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
23Kazarinov 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
22Slesarenko 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
21Slesarenko V. & Rudykh S. Microscopic and macroscopic instabilities in hyperelastic fiber composites. Journal of the Mechanics and Physics of Solids 99, 471–482 (2017)PDF
20Slesarenko 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
19Galich 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
18Rudoy 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
17Kazarinov 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
16Slesarenko V. & Rudykh S. Harnessing viscoelasticity and instabilities for tuning wavy patterns in soft layered composites. Soft Matter 12, 3677–3682 (2016)PDF
15Kazarinov 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
14Slesarenko V. The Simulation of the Pseudoelastic Behavior for Amorphous-crystalline Shape Memory Alloys. in Materials Today: Proceedings vol. 2 S767–S770 (2015)PDF
13Resnina 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
12Gunderov 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
11Gunderov 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


10Slesarenko V. Y., Gunderov D. A., Ulyanov P. G. & Valiev R. Z. Formation of amorphous states in Ti50Ni25Cu 25 alloy subjected to severe plastic deformation: Nanoglass issue. in IOP Conference Series: Materials Science and Engineering vol. 63 (2014)PDF
09Belyaev S. P., Resnina N. N., Slesarenko V. Y. & Shelyakov A. V. Mechanical and Functional Properties of Amorphous-Crystalline Ribbons of Ti40.7Hf9.5Ni44.8Cu5 Alloy. Inorganic Materials: Applied Research 2, 512–516 (2011)PDF
08Belyaev S., Resnina N. & Slesarenko V. Mechanical and functional properties of amorphous-crystalline thin ribbons of Ti50Ni25Cu25 and Ti40.7Hf 9.5Ni44.8Cu5 shape memory alloys. Smart Materials and Structures 20, (2011)PDF

Other Publications

07Saquet E. et al. The PHEMU15 catalogue and astrometric results of the Jupiter’s Galilean satellite mutual occultation and eclipse observations made in 2014-2015. Monthly Notices of the Royal Astronomical Society 474, 4730–4739 (2018)PDF
06Slesarenko V. Y., Bashakova E. A. & Devyatkin A. V. Astrometrical observations of Pluto-Charon system with the automated telescopes of Pulkovo observatory. Planetary and Space Science 122, 66–69 (2016)PDF
05Devyatkin A. V. & Slesarenko V. Y. On chromatic effects in observations of the Sun near the horizon. Izvestiya – Atmospheric and Ocean Physics 50, 385–389 (2014)PDF
04Devyatkin A. V. et al. Near Earth Objects Research in Pulkovo Observatory. Proc. IAU 10, 472–473 (2012)PDF
03Devyatkin A. V. et al. Near Earth Objects Research in Pulkovo Observatory. vol. 10 (2012)PDF
02Sokov E. N. et al. Observations of extrasolar planet transits with the automated telescopes of the Pulkovo Astronomical Observatory. Astronomy Letters 38, 180–190 (2012)PDF
01Aleshkina E. Y. et al. Astrometric and photometric studies of the asteroid 2008 TC3. Solar System Research 45, 34–42 (2011)PDF