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Fracture of Epoxy Matrixes Modified with Thermo-Plastic Polymers and Winding Glass Fibers Reinforced Plastics on Their Base under Low-Velocity Impact Condition

Тип публикацииJournal Article
Дата публикации2023-07-05
SCImago Q1
WOS Q1
БС1
SJR0.928
CiteScore11
Impact factor5.8
ISSN20734360
General Chemistry
Polymers and Plastics
Краткое описание

The work is aimed at studying the impact resistance of epoxy oligomer matrices (EO) modified with polysulfone (PSU) or polyethersulfone (PES) and glass fibers reinforced plastics (GFRP) based on them under low-velocity impact conditions. The concentration dependences of strength and fracture energy of modified matrices and GFRP were determined. It has been determined that the type of concentration curves of the fracture energy of GFRP depends on the concentration and type of the modifying polymer. It is shown that strength σ and fracture energy EM of thermoplastic-modified epoxy matrices change little in the concentration range from 0 to 15 wt.%. However, even with the introduction of 20 wt.% PSU into EO, the strength increases from 164 MPa to 200 MPa, and the fracture energy from 32 kJ/m2 to 39 kJ/m2. The effect of increasing the strength and fracture energy of modified matrices is retained in GFRP. The maximum increase in shear strength (from 72 MPa to 87 MPa) is observed for GFRP based on the EO + 15 wt.% PSU matrix. For GFRP based on EO + 20 wt.% PES, the shear strength is reduced to 69 MPa. The opposite effect is observed for the EO + 20 wt.% PES matrix, where the strength value decreases from 164 MPa to 75 MPa, and the energy decreases from 32 kJ/m2 to 10 kJ/m2. The reference value for the fracture energy of GFRP 615 is 741 kJ/m2. The maximum fracture energy for GFRP is based on EO + 20 wt.% PSU increases to 832 kJ/m2 for GFRP based on EO + 20 wt.% PES—up to 950 kJ/m2. The study of the morphology of the fracture surfaces of matrices and GFRP confirmed the dependence of impact characteristics on the microstructure of the modified matrices and the degree of involvement in the process of crack formation. The greatest effect is achieved for matrices with a phase structure “thermoplastic matrix-epoxy dispersion.” Correlations between the fracture energy and strength of EO + PES matrices and GFRP have been established.

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Polymers
2 публикации, 25%
Journal of Macromolecular Science - Physics
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Composites - Part A: Applied Science and Manufacturing
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Polymer Science - Series D
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Journal of Composite Materials
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Engineering Research Express
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Chinese Journal of Polymer Science (English Edition)
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ГОСТ |
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Tretyakov I. V. et al. Fracture of Epoxy Matrixes Modified with Thermo-Plastic Polymers and Winding Glass Fibers Reinforced Plastics on Their Base under Low-Velocity Impact Condition // Polymers. 2023. Vol. 15. No. 13. p. 2958.
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Tretyakov I. V., Petrova T. V., Kireynov A. V., Korokhin R., Platonova E. O., Alexeeva O. V., Gorbatkina Y. A., Solodilov V. I., Yurkov G. Yu., Berlin A. A. Fracture of Epoxy Matrixes Modified with Thermo-Plastic Polymers and Winding Glass Fibers Reinforced Plastics on Their Base under Low-Velocity Impact Condition // Polymers. 2023. Vol. 15. No. 13. p. 2958.
RIS |
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TY - JOUR
DO - 10.3390/polym15132958
UR - https://www.mdpi.com/2073-4360/15/13/2958
TI - Fracture of Epoxy Matrixes Modified with Thermo-Plastic Polymers and Winding Glass Fibers Reinforced Plastics on Their Base under Low-Velocity Impact Condition
T2 - Polymers
AU - Tretyakov, Ilya V
AU - Petrova, Tuyara V
AU - Kireynov, Aleksey V.
AU - Korokhin, Roman
AU - Platonova, Elena O
AU - Alexeeva, Olga V
AU - Gorbatkina, Yulia A.
AU - Solodilov, Vitaliy I
AU - Yurkov, Gleb Yu
AU - Berlin, Alexander Al
PY - 2023
DA - 2023/07/05
PB - MDPI
SP - 2958
IS - 13
VL - 15
PMID - 37447603
SN - 2073-4360
ER -
BibTex |
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BibTex (до 50 авторов) Скопировать
@article{2023_Tretyakov,
author = {Ilya V Tretyakov and Tuyara V Petrova and Aleksey V. Kireynov and Roman Korokhin and Elena O Platonova and Olga V Alexeeva and Yulia A. Gorbatkina and Vitaliy I Solodilov and Gleb Yu Yurkov and Alexander Al Berlin},
title = {Fracture of Epoxy Matrixes Modified with Thermo-Plastic Polymers and Winding Glass Fibers Reinforced Plastics on Their Base under Low-Velocity Impact Condition},
journal = {Polymers},
year = {2023},
volume = {15},
publisher = {MDPI},
month = {jul},
url = {https://www.mdpi.com/2073-4360/15/13/2958},
number = {13},
pages = {2958},
doi = {10.3390/polym15132958}
}
MLA
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Tretyakov, Ilya V., et al. “Fracture of Epoxy Matrixes Modified with Thermo-Plastic Polymers and Winding Glass Fibers Reinforced Plastics on Their Base under Low-Velocity Impact Condition.” Polymers, vol. 15, no. 13, Jul. 2023, p. 2958. https://www.mdpi.com/2073-4360/15/13/2958.
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