Towards improving mechanical properties of basalt fiber/polylactic acid composites by fiber surface treatments

Denni Kurniawan; Byung Sun Kim; Ho Yong Lee; Joong Yeon Lim

doi:10.1080/09276440.2015.1054743

Towards improving mechanical properties of basalt fiber/polylactic acid composites by fiber surface treatments

Denni Kurniawan, Byung Sun Kim, Ho Yong Lee, Joong Yeon Lim

Department of Mechanical, Robotics and Energy Engineering

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

Attempting to improve reinforcement effect on basalt fiber/polylactic acid composites, this study evaluates the effects of silane treatment, atmospheric glow discharge plasma polymerization, desizing, and addition of maleic anhydride coupling agent. The treated fibers were characterized, in terms of surface morphology and existing molecular bonds, and the mechanical properties of the composites were tested (i.e. strength, stiffness, and elongation at yield). Among the fiber surface treatments and the addition of coupling agent, improved mechanical properties were only shown by the silane treated and the atmospheric plasma polymerized composites by having 26 and 22% higher strength, respectively, as compared with the untreated one.

Original language	English
Pages (from-to)	553-562
Number of pages	10
Journal	Composite Interfaces
Volume	22
Issue number	7
DOIs	https://doi.org/10.1080/09276440.2015.1054743
State	Published - 2 Sep 2015

Keywords

composites
fibers
stiffness
strength
surfaces

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10.1080/09276440.2015.1054743

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abstract = "Attempting to improve reinforcement effect on basalt fiber/polylactic acid composites, this study evaluates the effects of silane treatment, atmospheric glow discharge plasma polymerization, desizing, and addition of maleic anhydride coupling agent. The treated fibers were characterized, in terms of surface morphology and existing molecular bonds, and the mechanical properties of the composites were tested (i.e. strength, stiffness, and elongation at yield). Among the fiber surface treatments and the addition of coupling agent, improved mechanical properties were only shown by the silane treated and the atmospheric plasma polymerized composites by having 26 and 22% higher strength, respectively, as compared with the untreated one.",

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AU - Lee, Ho Yong

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PY - 2015/9/2

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N2 - Attempting to improve reinforcement effect on basalt fiber/polylactic acid composites, this study evaluates the effects of silane treatment, atmospheric glow discharge plasma polymerization, desizing, and addition of maleic anhydride coupling agent. The treated fibers were characterized, in terms of surface morphology and existing molecular bonds, and the mechanical properties of the composites were tested (i.e. strength, stiffness, and elongation at yield). Among the fiber surface treatments and the addition of coupling agent, improved mechanical properties were only shown by the silane treated and the atmospheric plasma polymerized composites by having 26 and 22% higher strength, respectively, as compared with the untreated one.

AB - Attempting to improve reinforcement effect on basalt fiber/polylactic acid composites, this study evaluates the effects of silane treatment, atmospheric glow discharge plasma polymerization, desizing, and addition of maleic anhydride coupling agent. The treated fibers were characterized, in terms of surface morphology and existing molecular bonds, and the mechanical properties of the composites were tested (i.e. strength, stiffness, and elongation at yield). Among the fiber surface treatments and the addition of coupling agent, improved mechanical properties were only shown by the silane treated and the atmospheric plasma polymerized composites by having 26 and 22% higher strength, respectively, as compared with the untreated one.

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Towards improving mechanical properties of basalt fiber/polylactic acid composites by fiber surface treatments

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