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Antifriction and Construction Materials Based on Modified Phenol-Formaldehyde Resins Reinforced with Mineral and Synthetic Fibrous Fillers

Novel polymer composite materials (PCM) based on resole phenol-formaldehyde resins modified with polyamide and reinforced with a combination of organic and inorganic fibrous fillers have been developed. PCM are characterized by a Charpy impact strength of up to 250 kJ/m 2 , an ultimate strength in s...

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Published in:Mechanics of composite materials 2014-05, Vol.50 (2), p.213-222
Main Authors: Burmistr, M. V., Boiko, V. S., Lipko, E. O., Gerasimenko, K. O., Gomza, Yu. P., Vesnin, R. L., Chernyayev, A. V., Ananchenko, B. A., Kovalenko, V. L.
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cited_by cdi_FETCH-LOGICAL-c394t-c2a6515c56d9451f2f5fb212a179e11bd3a224e6433cad8cfd50b9058124e0173
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container_issue 2
container_start_page 213
container_title Mechanics of composite materials
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creator Burmistr, M. V.
Boiko, V. S.
Lipko, E. O.
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Ananchenko, B. A.
Kovalenko, V. L.
description Novel polymer composite materials (PCM) based on resole phenol-formaldehyde resins modified with polyamide and reinforced with a combination of organic and inorganic fibrous fillers have been developed. PCM are characterized by a Charpy impact strength of up to 250 kJ/m 2 , an ultimate strength in static bending of up to 468 MPa, an ultimate strength in compression of up to 178 MPa, a Martens thermal stability of up to 300 °C, a friction coefficient of up to 0.12, and mass wear of up to 0.76 mg/(cm 2  · km). They can be used for the fabrication of products intended for antifriction and constructional purposes.
doi_str_mv 10.1007/s11029-014-9408-0
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source Springer Nature
subjects Antifriction
Building materials
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Composites
Compressive strength
Fillers
Formaldehyde
Friction
Glass
Materials Science
Natural Materials
Phenols
Polyamide resins
Polyamides
Polymers
Resins
Solid Mechanics
Ultimate tensile strength
title Antifriction and Construction Materials Based on Modified Phenol-Formaldehyde Resins Reinforced with Mineral and Synthetic Fibrous Fillers
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