• Garion, C, Skoczeń, B, Sgobba, S, 2006, Constitutive modelling and identification of parameters of the plastic strain-induced martensitic transformation in 316L stainless steel at cryogenic temperatures, Int. Journal of Plasticity, 22, 7, pp. 1234-1264.
• Skoczeń, B., 2007, Functionally graded structural members obtained via the low-temperature strain induced phase transformation, Int. Journal of Solids and Structures, 44, 16, pp. 5182-5207.
• Egner, H., Skoczeń, B., 2010, Ductile damage development in two-phase metallic materials applied at cryogenic temperatures, Int. Journal of Plasticity, 26, 4, pp. 488-506.
• Skoczeń, B., Bielski, J., Sgobba, S., Marcinek, D., 2010, Constitutive model of discontinuous plastic flow at cryogenic temperatures, Int. Journal of Plasticity, 26, 12, pp. 1659-1679.
• Skoczeń, B., Bielski, J., Tabin, J., 2014, Multiaxial constitutive model of discontinuous plastic flow at cryogenic temperatures, Int. Journal of Plasticity, 55, pp. 198-218.
• Tabin, J., Skoczeń, B., Bielski, J., 2016, Strain localization during discontinuous plastic flow at extremely low temperatures, Int. Journal of Solids and Structures, 97-98, 2016, pp. 593-612.
• Tabin, J., Skoczeń, B., Bielski, J., 2017, Damage affected discontinuous plastic flow (DPF), Mechanics of Materials, 110, pp. 44-58.
• Ryś, M. Skoczeń, B., 2017, Coupled constitutive model of damage affected two-phase continuum, Mechanics of Materials, 115, pp. 1-15.
• Tabin, J., Skoczeń, B., Bielski, J., 2019, Discontinuous plastic flow coupled with strain-induced fcc-bcc phase transformation at extremely low temperatures, Mechanics of Materials, 129, pp. 23-40.
• Schmidt, R., Skoczeń, B., Bielski, J., Schmidt, E., 2022, New double surface constitutive model of intermittent plastic flow applied to near 0 K adiabatic shear bands, Mechanics of Materials, Elsevier, 175,104500.
• Nalepka, K., Skoczen, B., Schmidt, R., Ciepielowska, M., Schmidt, E., Chulist, R., 2023, Microstructure evolution in the context of fracture in austenitic steels under complex loads at cryogenic temperatures, Materials Characterization, 197, 112654.
• Nalepka, K., Skoczeń, B., Schmidt, Zwolińska-Faryj, W., Schmidt E., Chulist, R., 2024, Physical mechanism of the intermittent plastic flow at extremely low temperatures, International Journal of Plasticity, 177, 103994.
• Schmidt, R., Schmidt E., Skoczeń, B., (2025) Fracture of metastable materials near absolute zero, International Journal of Plasticity, 187, 104273.
• Skoczeń, B., Schmidt, E., Schmidt, R., Kaciuba, A., 2026, Phase transformation and radiation-induced hardening in austenitic stainless steels at cryogenic temperatures, Cryogenics, 153, 104258.