Plasticity Mechanism for Glassy Polymers: Computer Simulation Picture
Autor: | E. F. Oleinik, I. A. Strel’nikov, S. N. Rudnev, M. A. Mazo, O. B. Salamatina |
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Rok vydání: | 2018 |
Předmět: |
chemistry.chemical_classification
Materials science Polymers and Plastics Isotropy Nucleation 02 engineering and technology Polymer Plasticity 021001 nanoscience & nanotechnology 01 natural sciences Potential energy Condensed Matter::Soft Condensed Matter symbols.namesake chemistry Chemical physics 0103 physical sciences Nano Materials Chemistry symbols van der Waals force Deformation (engineering) 010306 general physics 0210 nano-technology |
Zdroj: | Polymer Science, Series A. 60:1-49 |
ISSN: | 1555-6107 0965-545X |
DOI: | 10.1134/s0965545x18010042 |
Popis: | This review summarizes the data published over the past two and a half decades on the mechanism of plastic deformation of bulk isotropic linear glassy polymers in uniaxial tension, compression, and shear at low deformation temperatures (Тdef < 0.6Тg) and moderate loading rates. The main attention is focused on studies concerning the numerical computer simulations of plasticity of organic polymer glasses. The plastic behavior of glassy polymers at nano-, micro-, and macrolevels in the range of macroscopic strains up to ≈100% is discussed. Plasticity mechanisms are compared for organic, inorganic, metallic, polymer, and nonpolymer glasses with different chemical structures and types of interparticle interactions. The general common mechanism of plasticity of glassy compounds, the nucleation of plasticity carriers in them, and the structure of such carriers and their dynamics are covered. Within the framework of the common plasticity mechanism, the specific features of deformation in glassy polymers are analyzed. Specifically, the participation of conformational transformations in macromolecules in the deformation response of polymer glasses, change in intensity of the yield peak with the thermomechanical prehistory of the sample, and the role of van der Waals interactions in the accumulation of excess potential energy by the sample under loading are considered. The role of free volume and structural and dynamic heterogeneities in the plasticity of glasses is also discussed. |
Databáze: | OpenAIRE |
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