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Skorupska M.♦, Kulczyk M.♦, Denis P., Grzęda D.♦, Czajka A.♦, Ryszkowska J.♦, Structural Hierarchy of PA6 Macromolecules after Hydrostatic Extrusion,
Materials, ISSN: 1996-1944, DOI: 10.3390/ma16093435, Vol.16, No.9, pp.1-18, 2023Streszczenie: This article presents the influence of severe plastic deformation by hydrostatic extrusion (HE) on the thermal and structural properties of polyamide 6 (PA6). During the hydrostatic extrusion process, a fibrous structure oriented along the extrusion direction is formed, which was visualized during microscopic observations. The degree of crystallinity was analyzed by differential scanning calorimetry (DSC). Wide-angle X-ray scattering diffraction (WAXS) analysis was used to partially characterize the PA6 structure after the HE process. The contents of various forms of the crystalline phase in PA6 samples before and after the HE process were analyzed in fragments of spectroscopy in infrared (FTIR). The favorable properties of PA6 after the HE process were obtained after deformation under conditions generating an adiabatic temperature higher than the glass transition temperature and lower than the temperature of the onset of melting of the crystalline phase. Thermal analysis using DSC allowed us to conclude that in the PA6 after the HE process generating deformations in the range of 0.68–1.56, the proportion of the crystalline phase α increases in PA6. As the deformation increases in the HE process, the crystalline phase proportion increases by 12% compared to the initial material (before HE). The glass transition temperature of PA6 is ca. 50.6 °C, reduced for the sample after the HE process at a small deformation of 0.68 (PA6_0.68) to ca. 44.2 °C. For other samples, Tg is ca. 53.2–53.5 °C. As a result of the analysis of WAXS diffractograms of PA6 samples after various deformations in the HE process, the presence of typical peaks of phases α1 and α2 and γ was observed. The results of the FTIR spectroscopic analysis confirm these observations that as the deformation increases, the proportion of the crystalline phase α increases. Słowa kluczowe: hydrostatic extrusion, polyamide 6, structure, thermal properties Afiliacje autorów:
Skorupska M. | - | Institute of High Pressure Physics, Polish Academy of Sciences (PL) | Kulczyk M. | - | inna afiliacja | Denis P. | - | IPPT PAN | Grzęda D. | - | inna afiliacja | Czajka A. | - | inna afiliacja | Ryszkowska J. | - | inna afiliacja |
| | 140p. |
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Frydrych K., Jarzębska A.♦, Virupakshi S., Kowalczyk-Gajewska K., Bieda M.♦, Chulist R.♦, Skorupska M.♦, Schell N.♦, Sztwiernia K.♦, Texture-based optimization of crystal plasticity parameters: application to zinc and its alloy,
METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, ISSN: 1073-5623, DOI: 10.1007/s11661-021-06285-7, Vol.52, No.8, pp.3257-3273, 2021Streszczenie: Evolutionary algorithms have become an extensively used tool for identification of crystal plasticity parameters of hexagonal close packed metals and alloys. However, the fitness functions were usually built using the experimentally measured stress–strain curves. Here, the fitness function is built by means of numerical comparison of the simulated and experimental textures. Namely, the normalized texture difference index is minimized. The evolutionary algorithm with the newly developed fitness function is tested by performing crystal plasticity parameter optimization for both pure zinc and zinc-magnesium alloy. These materials are promising candidates for bioabsorbable implants due to good biocompatibility and optimal corrosion rate. Although their mechanical properties in the as-cast state do not fulfill the requirements, they can be increased by means of hydrostatic extrusion. The developed modeling approach enabled acquisition of the crystal plasticity parameters and analysis of the active deformation mechanisms in zinc and zinc-magnesium alloy subjected to hydrostatic extrusion. It was shown that although slip systems are the main deformation carrier, compressive twinning plays an important role in texture evolution. However, the texture is also partially affected by dynamic recrystallization which is not considered within the developed framework. Afiliacje autorów:
Frydrych K. | - | IPPT PAN | Jarzębska A. | - | Institute of Metallurgy and Materials Science, Polish Academy of Sciences (PL) | Virupakshi S. | - | IPPT PAN | Kowalczyk-Gajewska K. | - | IPPT PAN | Bieda M. | - | Institute of Metallurgy and Materials Science, Polish Academy of Sciences (PL) | Chulist R. | - | Institute of Metallurgy and Materials Science, Polish Academy of Sciences (PL) | Skorupska M. | - | Institute of High Pressure Physics, Polish Academy of Sciences (PL) | Schell N. | - | inna afiliacja | Sztwiernia K. | - | Institute of Metallurgy and Materials Science, Polish Academy of Sciences (PL) |
| | 200p. |