Topography of the Interfacial Shear Strength and the Mean Intrinsic Tensile Strength of Hemp Fibers as a Reinforcement of Polypropylene

The strength of the interphase between the reinforcements and the matrix has a major role in the mechanical properties of natural fiber reinforced polyolefin composites. The creation of strong interphases is hindered by the hydrophobic and hydrophilic natures of the matrix and the reinforcements, re...

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Bibliographic Details
Published in:Materials 2020-02, Vol.13 (4), p.1012
Main Authors: Hernández-Díaz, David, Villar-Ribera, Ricardo, Julián, Fernando, Tarrés, Quim, Espinach, Francesc X, Delgado-Aguilar, Marc
Format: Article
Language:English
Subjects:
Composite materials
Coupling agents
Exploitation
Fiber composites
Fiber reinforced polymers
Hemp
Interfacial shear strength
Mechanical properties
Morphology
Polymer matrix composites
Polyolefins
Researchers
Shear strength
Tensile strength
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Summary:The strength of the interphase between the reinforcements and the matrix has a major role in the mechanical properties of natural fiber reinforced polyolefin composites. The creation of strong interphases is hindered by the hydrophobic and hydrophilic natures of the matrix and the reinforcements, respectively. Adding coupling agents has been a common strategy to solve this problem. Nonetheless, a correct dosage of such coupling agents is important to, on the one hand guarantee strong interphases and high tensile strengths, and on the other hand ensure a full exploitation of the strengthening capabilities of the reinforcements. The paper proposes using topographic profile techniques to represent the effect of reinforcement and coupling agent contents of the strength of the interphase and the exploitation of the reinforcements. This representation allowed identifying the areas that are more or less sensitive to coupling agent content. The research also helped by finding that an excess of coupling agent had less impact than a lack of this component.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma13041012