Experimental-theoretical technique for design antifriction polyetheretherketone composites of optimum composition

Abstract

New composites based on polyetheretherketone (PEEK) resin with specified physical-mechanical properties are developed with the use of experimental data on the dependence of effective properties (volumetric wear, modulus of elasticity, value of elongation at break, etc.) versus the values of control parameters. The loading (content) of short (milled) carbon fibers (200 μm) and PTFE particles (5-15 μm) are used as the control parameters. In order to attain the necessary number of reference points a numerical technique is employed that ensures their supplementing up to a regular array with the use of linear interpolation. The obtained dependences of the effective properties versus the control parameters are constructed in the form of surfaces and corresponding isolines. In doing so, a region with the required range of effective properties values is allocated at the isolines graphs. Then, the variety regions are overlapped, whereas their intersection determines the range of the control parameters that provides the effective characteristics to take the required values.

Original language	English
Title of host publication	Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures
Editors	Vasily M. Fomin, Victor E. Panin, Sergey G. Psakhie
Publisher	American Institute of Physics Inc.
Volume	2051
ISBN (Electronic)	9780735417779
DOIs	https://doi.org/10.1063/1.5083277
Publication status	Published - 12 Dec 2018
Event	International Symposium on Hierarchical Materials: Development and Applications for New Technologies and Reliable Structures 2018 - Tomsk, Russian Federation Duration: 1 Oct 2018 → 5 Oct 2018

Conference

Conference	International Symposium on Hierarchical Materials: Development and Applications for New Technologies and Reliable Structures 2018
Country	Russian Federation
City	Tomsk
Period	1.10.18 → 5.10.18

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1063/1.5083277

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Bochkareva, S. A., Grishaeva, N. Y., Lyukshin, B. A., Panin, S. V., Matolygina, N. Y., Panov, I. L., Nguyen, D. A., & Byakov, A. V. (2018). Experimental-theoretical technique for design antifriction polyetheretherketone composites of optimum composition. In V. M. Fomin, V. E. Panin, & S. G. Psakhie (Eds.), Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures (Vol. 2051). [020034] American Institute of Physics Inc.. https://doi.org/10.1063/1.5083277

Experimental-theoretical technique for design antifriction polyetheretherketone composites of optimum composition. / Bochkareva, S. A.; Grishaeva, N. Yu; Lyukshin, B. A.; Panin, S. V.; Matolygina, N. Yu; Panov, I. L.; Nguyen, D. A.; Byakov, A. V.

Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. ed. / Vasily M. Fomin; Victor E. Panin; Sergey G. Psakhie. Vol. 2051 American Institute of Physics Inc., 2018. 020034.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Bochkareva, SA, Grishaeva, NY, Lyukshin, BA, Panin, SV, Matolygina, NY, Panov, IL, Nguyen, DA & Byakov, AV 2018, Experimental-theoretical technique for design antifriction polyetheretherketone composites of optimum composition. in VM Fomin, VE Panin & SG Psakhie (eds), Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. vol. 2051, 020034, American Institute of Physics Inc., International Symposium on Hierarchical Materials: Development and Applications for New Technologies and Reliable Structures 2018, Tomsk, Russian Federation, 1.10.18. https://doi.org/10.1063/1.5083277

Bochkareva SA, Grishaeva NY, Lyukshin BA, Panin SV, Matolygina NY, Panov IL et al. Experimental-theoretical technique for design antifriction polyetheretherketone composites of optimum composition. In Fomin VM, Panin VE, Psakhie SG, editors, Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. Vol. 2051. American Institute of Physics Inc. 2018. 020034 https://doi.org/10.1063/1.5083277

Bochkareva, S. A. ; Grishaeva, N. Yu ; Lyukshin, B. A. ; Panin, S. V. ; Matolygina, N. Yu ; Panov, I. L. ; Nguyen, D. A. ; Byakov, A. V. / Experimental-theoretical technique for design antifriction polyetheretherketone composites of optimum composition. Proceedings of the Advanced Materials with Hierarchical Structure for New Technologies and Reliable Structures. editor / Vasily M. Fomin ; Victor E. Panin ; Sergey G. Psakhie. Vol. 2051 American Institute of Physics Inc., 2018.

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abstract = "New composites based on polyetheretherketone (PEEK) resin with specified physical-mechanical properties are developed with the use of experimental data on the dependence of effective properties (volumetric wear, modulus of elasticity, value of elongation at break, etc.) versus the values of control parameters. The loading (content) of short (milled) carbon fibers (200 μm) and PTFE particles (5-15 μm) are used as the control parameters. In order to attain the necessary number of reference points a numerical technique is employed that ensures their supplementing up to a regular array with the use of linear interpolation. The obtained dependences of the effective properties versus the control parameters are constructed in the form of surfaces and corresponding isolines. In doing so, a region with the required range of effective properties values is allocated at the isolines graphs. Then, the variety regions are overlapped, whereas their intersection determines the range of the control parameters that provides the effective characteristics to take the required values.",

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AU - Panin, S. V.

AU - Matolygina, N. Yu

AU - Panov, I. L.

AU - Nguyen, D. A.

AU - Byakov, A. V.

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N2 - New composites based on polyetheretherketone (PEEK) resin with specified physical-mechanical properties are developed with the use of experimental data on the dependence of effective properties (volumetric wear, modulus of elasticity, value of elongation at break, etc.) versus the values of control parameters. The loading (content) of short (milled) carbon fibers (200 μm) and PTFE particles (5-15 μm) are used as the control parameters. In order to attain the necessary number of reference points a numerical technique is employed that ensures their supplementing up to a regular array with the use of linear interpolation. The obtained dependences of the effective properties versus the control parameters are constructed in the form of surfaces and corresponding isolines. In doing so, a region with the required range of effective properties values is allocated at the isolines graphs. Then, the variety regions are overlapped, whereas their intersection determines the range of the control parameters that provides the effective characteristics to take the required values.

AB - New composites based on polyetheretherketone (PEEK) resin with specified physical-mechanical properties are developed with the use of experimental data on the dependence of effective properties (volumetric wear, modulus of elasticity, value of elongation at break, etc.) versus the values of control parameters. The loading (content) of short (milled) carbon fibers (200 μm) and PTFE particles (5-15 μm) are used as the control parameters. In order to attain the necessary number of reference points a numerical technique is employed that ensures their supplementing up to a regular array with the use of linear interpolation. The obtained dependences of the effective properties versus the control parameters are constructed in the form of surfaces and corresponding isolines. In doing so, a region with the required range of effective properties values is allocated at the isolines graphs. Then, the variety regions are overlapped, whereas their intersection determines the range of the control parameters that provides the effective characteristics to take the required values.

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