Fracture toughness and failure mechanisms in silica-filled epoxy resin composites: effects of temperature and loading rate

Sung Wi Koh; Jang Kyo Kim; Yiu Wing Mai

doi:10.1016/0032-3861(93)90474-O

Fracture toughness and failure mechanisms in silica-filled epoxy resin composites: effects of temperature and loading rate

Sung Wi Koh, Jang Kyo Kim, Yiu Wing Mai

Research output: Journal article publication › Journal article › Academic research › peer-review

53 Citations (Scopus)

Abstract

The fracture toughness and failure mechanisms of epoxy resin composites filled with silica particulates have been investigated in the temperature range -50°C to 80°C and at two loading rates. There are significant effects of temperature and loading rate on impact fracture toughness, which shows a peak at ambient temperature and decreases as temperature is reduced or raised. Fracture toughness under static loading is slightly lower than that of impact loading with similar dependence on temperature. Failure mechanisms are characterized based on SEM examination, which is correlated with the measured fracture toughness, the damage zone size developed at the advancing crack tip, and the residual stresses arising from differential thermal contraction between matrix and particles upon cooling from the cure temperature.

Original language	English
Pages (from-to)	3446-3455
Number of pages	10
Journal	Polymer
Volume	34
Issue number	16
DOIs	https://doi.org/10.1016/0032-3861(93)90474-O
Publication status	Published - 1993
Externally published	Yes

Keywords

failure mechanisms
fracture toughness
loading rate
particulate composites
temperature

ASJC Scopus subject areas

Organic Chemistry
Polymers and Plastics
Materials Chemistry

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10.1016/0032-3861(93)90474-O

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title = "Fracture toughness and failure mechanisms in silica-filled epoxy resin composites: effects of temperature and loading rate",

abstract = "The fracture toughness and failure mechanisms of epoxy resin composites filled with silica particulates have been investigated in the temperature range -50°C to 80°C and at two loading rates. There are significant effects of temperature and loading rate on impact fracture toughness, which shows a peak at ambient temperature and decreases as temperature is reduced or raised. Fracture toughness under static loading is slightly lower than that of impact loading with similar dependence on temperature. Failure mechanisms are characterized based on SEM examination, which is correlated with the measured fracture toughness, the damage zone size developed at the advancing crack tip, and the residual stresses arising from differential thermal contraction between matrix and particles upon cooling from the cure temperature.",

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AU - Koh, Sung Wi

AU - Kim, Jang Kyo

AU - Mai, Yiu Wing

PY - 1993

Y1 - 1993

N2 - The fracture toughness and failure mechanisms of epoxy resin composites filled with silica particulates have been investigated in the temperature range -50°C to 80°C and at two loading rates. There are significant effects of temperature and loading rate on impact fracture toughness, which shows a peak at ambient temperature and decreases as temperature is reduced or raised. Fracture toughness under static loading is slightly lower than that of impact loading with similar dependence on temperature. Failure mechanisms are characterized based on SEM examination, which is correlated with the measured fracture toughness, the damage zone size developed at the advancing crack tip, and the residual stresses arising from differential thermal contraction between matrix and particles upon cooling from the cure temperature.

AB - The fracture toughness and failure mechanisms of epoxy resin composites filled with silica particulates have been investigated in the temperature range -50°C to 80°C and at two loading rates. There are significant effects of temperature and loading rate on impact fracture toughness, which shows a peak at ambient temperature and decreases as temperature is reduced or raised. Fracture toughness under static loading is slightly lower than that of impact loading with similar dependence on temperature. Failure mechanisms are characterized based on SEM examination, which is correlated with the measured fracture toughness, the damage zone size developed at the advancing crack tip, and the residual stresses arising from differential thermal contraction between matrix and particles upon cooling from the cure temperature.

KW - failure mechanisms

KW - fracture toughness

KW - loading rate

KW - particulate composites

KW - temperature

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DO - 10.1016/0032-3861(93)90474-O

M3 - Journal article

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SN - 0032-3861

VL - 34

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EP - 3455

JO - Polymer

JF - Polymer

IS - 16

ER -

Fracture toughness and failure mechanisms in silica-filled epoxy resin composites: effects of temperature and loading rate

Abstract

Keywords

ASJC Scopus subject areas

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