Mechanics of short fibers in filled styrene-butadiene rubber (SBR) composites

Different short fibers (glass, carbon, cellulose, polyamide, and polyester with aspect, length/diameter, ratio of 600, 860, 500, 83, and 330 respectively) were added to styrene‐butadiene rubber (SBR) matrix filled with an inorganic semireinforcing mineral (sepiolite). In all cases, 18 parts by volum...

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Bibliographic Details
Published in:Polymer composites 1988-06, Vol.9 (3), p.198-203
Main Authors: Rueda, L. Ibarra, Antón, C. Chamorro, Rodriguez, M. C. Tabernero
Format: Article
Language:English
Subjects:
Applied sciences
composite materials
Composites
Exact sciences and technology
fibers
Forms of application and semi-finished materials
materials testing
mechanical strength
Polymer industry, paints, wood
rubber
Technology of polymers
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Summary:Different short fibers (glass, carbon, cellulose, polyamide, and polyester with aspect, length/diameter, ratio of 600, 860, 500, 83, and 330 respectively) were added to styrene‐butadiene rubber (SBR) matrix filled with an inorganic semireinforcing mineral (sepiolite). In all cases, 18 parts by volume of fiber per 100 parts by mass of rubber were added. The fiber orientation attained (more than 60%) was evaluated by a ratio of directional mechanics on uncured samples. In glass and carbon fiber composites, because of decreases in fiber aspect ratio after mixing (10 and 35 respectively), no improvements in properties were obtained. The presence of fibers yields a large increase in green strength, stress at low strain, and tear strength. Logically, the elongation at break diminishes. The uncured and cured properties present a remarkable anisotropy. The adhesive employed (resorcinol‐formaldehyde) to increase fiber‐to‐matrix adhesion enhanced the composite properties, especially in the case of polyester fiber composites. Thus, for polyester fiber composites, green strength became 15.85 kg/cm2; stress at 25% strain, 10.2 MPa; tensile strength, 6.3 MPa; elongation at break, 36%; tear strength, 70 N; and swelling in longitudinal direction, 1.06.
ISSN:0272-8397
1548-0569
DOI:10.1002/pc.750090306