Prediction for debonding damage process of glass beads-reinforced modified polyphenylene oxide under simple shear

A three-dimensional finite element cell modeling technique has been applied to predict the particle–matrix debonding process of particulate polymer composite (PPC) subject to simple shear loading. The particle–matrix debonding in PPC has been simulated by using two different debonding criteria: stre...

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Published inJournal of materials processing technology Vol. 167; no. 2; pp. 429 - 437
Main Authors Tsui, C.P., Chen, D.Z., Tang, C.Y., Uskokovic, P.S., Fan, J.P.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 30.08.2005
Subjects
Debonding
In situ scanning electron microscopy (SEM)
Particulate polymer composites
Shear damage
Particulate polymer composites
Shear damage
Debonding
In situ scanning electron microscopy (SEM)
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Abstract A three-dimensional finite element cell modeling technique has been applied to predict the particle–matrix debonding process of particulate polymer composite (PPC) subject to simple shear loading. The particle–matrix debonding in PPC has been simulated by using two different debonding criteria: stress-based and strain-based. The stress-based debonding criterion uses the hydrostatic tensile stress as a critical stress while the strain-based one uses the equivalent plastic strain at failure as a critical factor for element failure. In this analysis, glass beads-reinforced polyphenylene oxide (GB/PPO) has been used for verification of the predicted results. As compared with the results from scanning electron microscopy (SEM) based in situ simple shear test of GB/PPO composite, the model with the stress-based criterion is much more appropriate for simulation of the shear damage process. The importance of selecting an appropriate debonding criterion for achieving correct simulation results could be revealed. The essential information like the threshold strain for initiation of shear damage could then be acquired from the model with the verified stress-based debonding criterion.
AbstractList A three-dimensional finite element cell modeling technique has been applied to predict the particle-matrix debonding process of particulate polymer composite (PPC) subject to simple shear loading. The particle-matrix debonding in PPC has been simulated by using two different debonding criteria: stress-based and strain-based. The stress-based debonding criterion uses the hydrostatic tensile stress as a critical stress while the strain-based one uses the equivalent plastic strain at failure as a critical factor for element failure. In this analysis, glass beads-reinforced polyphenylene oxide (GB/PPO) has been used for verification of the predicted results. As compared with the results from scanning electron microscopy (SEM) based in situ simple shear test of GB/PPO composite, the model with the stress-based criterion is much more appropriate for simulation of the shear damage process. The importance of selecting an appropriate debonding criterion for achieving correct simulation results could be revealed. The essential information like the threshold strain for initiation of shear damage could then be acquired from the model with the verified stress-based debonding criterion.
Author Chen, D.Z.
Fan, J.P.
Tang, C.Y.
Tsui, C.P.
Uskokovic, P.S.
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Keywords Particulate polymer composites
Shear damage
Debonding
In situ scanning electron microscopy (SEM)
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Snippet A three-dimensional finite element cell modeling technique has been applied to predict the particle–matrix debonding process of particulate polymer composite...
A three-dimensional finite element cell modeling technique has been applied to predict the particle-matrix debonding process of particulate polymer composite...
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SubjectTerms Debonding
In situ scanning electron microscopy (SEM)
Particulate polymer composites
Shear damage
Title Prediction for debonding damage process of glass beads-reinforced modified polyphenylene oxide under simple shear
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