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PROBLEMS AND PROSPECTS OF COMPUTER DESIGN OF NEW COMPOSITE MATERIALS

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Journal of Applied Mechanics and Technical Physics Aims and scope

Abstract

Problems arising when analyzing the physical and mechanical properties of composite materials based on polymer matrices are under study. The structural features of such materials and the resulting difficulties in the development and implementation of corresponding models are discussed. A technique for determining the effective strain-strength, thermophysical, and electrophysical properties of the compositions is proposed, and a number of examples are considered. Particular attention is paid to solving computer design problems in order to determine the composition and structure of composites under specified constraints on their effective properties. Initial data for solving these problems are obtained both in field and computational experiments. Directions for further research are identified.

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REFERENCES

  1. M. F. Ashby, Materials Selection in Mechanical Design (Elsevier, Burlington, 2011).

  2. V. E. Egorushkin, V. E. Panin, and A. V. Panin, “Physical Nature of Plasticity," Fiz. Mezomekh. 23 (2), 5–12 (2020).

  3. V. E. Panin, “Fundamentals of Physical Mesomechanics," Fiz. Mezomekh.," 1 (1), 5–20 (1998).

  4. V. E. Panin, “Methodology of Physical Mesomechanics as a Basis for Model Construction in Computer-Aided Design of Materials," Izv. Vyssh. Uchebn. Zaved. Fiz. 38 (11), 6–25 (1995) [Russian Phys. J. 38 (11), 1117–1131 (1995)].

  5. R. R. Balokhonov, A. V. Bolesta, M. P. Bondar’, et al.,Surface Layers and Internal Interfaces in Heterogeneous Media (Izd. Sib. Otd. Ross. Akad. Nauk, Novosibirsk, 2006) [in Russian].

  6. V. E. Panin, “Physical Mesomechanics of Solid Surface Layers," Phys. Mesomech. 2 (6), 5–21 (1999).

  7. K. Z. Markov, “Elementary Micromechanics of Heterogeneous Media," in Heterogeneous Media. Modeling and Simulation in Science, Engineering and Technology (Birkhäuser, Boston, 2000).

  8. E. J. Garboczi and J. G. Berryman, “Elastic Moduli of a Material Containing Composite Inclusions: Effective Medium Theory and Finite Element Computations," Mech. Mater. 33, 455–470 (2001).

  9. B. A. Lyukshin, S. V. Shil’ko, S. V. Panin, et al.,Particulate-Filled Polymer Composites of Engineering and Medical Purposes (Izd. Sib. Otd. Ross. Akad. Nauk, Novobirsk, 2017) [in Russian].

  10. M. Wang, “Predictions of Effective Physical Properties of Complex Multiphase Materials," Mater. Sci. Eng. R. 63(1), 1–30 (2008).

  11. “An Efficient Simulation-Based Search Method for Reliability-Based Robust Design Optimization of Mechanical Components," Mechanika 23 (5), 696–702 (2017).

  12. S. A. Bochkareva, N. Yu. Grishaeva, B. A. Lyukshin, et al., “A Unified Approach to Determining the Effective Physicomechanical Characteristics of Filled Polymer Composites Based on Variational Principles," Mech. Compos. Mater. 54 (6), 775–788 (2019).

  13. Q. S. Yang and Q. H. Qin, “Modelling the Effective Elasto–Plastic Properties of Unidirectional Composites Reinforced by Fibre Bundles Under Transverse Tension and Shear Loading," Mater. Sci. Eng. A 344, 140–145 (2003).

  14. M. Würkner, H. Berger, and U. Gabbert, “On Numerical Evaluation of Effective Material Properties for Composite Structures with Rhombic Fiber Arrangements," Int. J. Eng. Sci. 49, 322–332 (2011).

  15. D. L. McDowell and D. Backman, “Simulation-Assisted Design and Accelerated Insertion of Materials," in Computational Methods for Microstructure-Property Relationships (Springer, Boston, 2011).

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Authors and Affiliations

  1. Institute of Strength Physics and Materials Science, Siberian Branch, Russian Academy of Sciences, 634055, Tomsk, Russia

    S. V. Panin, B. A. Lyukshin & S. A. Bochkareva

  2. Tomsk Polytechnic University, 634050, Tomsk, Russia

    S. V. Panin

  3. Tomsk State University of Control Systems and Radioelectronics, 634050, Tomsk, Russia

    B. A. Lyukshin & S. A. Bochkareva

  4. Tomsk State University, 634050, Tomsk, Russia

    B. A. Lyukshin

Authors
  1. S. V. Panin
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  2. B. A. Lyukshin
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  3. S. A. Bochkareva
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Correspondence to S. V. Panin or S. A. Bochkareva.

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Panin, S.V., Lyukshin, B.A. & Bochkareva, S.A. PROBLEMS AND PROSPECTS OF COMPUTER DESIGN OF NEW COMPOSITE MATERIALS. J Appl Mech Tech Phy 61, 828–833 (2020). https://doi.org/10.1134/S0021894420050181

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  • DOI: https://doi.org/10.1134/S0021894420050181

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