Time dependence of piezoresistance for the conductor-filled polymer composites

Xiang Wu Zhang; Yi Pan; Qiang Zheng; Xiao Su Yi

doi:10.1002/1099-0488(20001101)38:21<2739::AID-POLB40>3.0.CO;2-O

Time dependence of piezoresistance for the conductor-filled polymer composites

Xiang Wu Zhang, Yi Pan, Qiang Zheng, Xiao Su Yi

Research output: Journal Publication › Article › peer-review

321 Citations (Scopus)

Abstract

The piezoresistance and its time dependence of conductor-filled polymer composites have been investigated. To reveal the origin of the time dependence of piezoresistance, the creep of the polymer matrix is also studied. Based on the interparticle separation change under the applied stress, a model has been developed to predict the piezoresistance and its time dependence. By analyzing this model, the influences of applied stress, filler particle diameter, filler volume fraction, matrix compressive modulus, potential barrier height, and the matrix creep behavior on the piezoresistance and its time dependence are interpreted quantitatively. These predicted results are compared with the experimental data obtained on the polymer composites filled with conductor fillers, and good agreements were obtained.

Original language	English
Pages (from-to)	2739-2749
Number of pages	11
Journal	Journal of Polymer Science, Part B: Polymer Physics
Volume	38
Issue number	21
DOIs	https://doi.org/10.1002/1099-0488(20001101)38:21<2739::AID-POLB40>3.0.CO;2-O
Publication status	Published - 1 Nov 2000
Externally published	Yes

ASJC Scopus subject areas

Condensed Matter Physics
Physical and Theoretical Chemistry
Polymers and Plastics
Materials Chemistry

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10.1002/1099-0488(20001101)38:21<2739::AID-POLB40>3.0.CO;2-O

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title = "Time dependence of piezoresistance for the conductor-filled polymer composites",

abstract = "The piezoresistance and its time dependence of conductor-filled polymer composites have been investigated. To reveal the origin of the time dependence of piezoresistance, the creep of the polymer matrix is also studied. Based on the interparticle separation change under the applied stress, a model has been developed to predict the piezoresistance and its time dependence. By analyzing this model, the influences of applied stress, filler particle diameter, filler volume fraction, matrix compressive modulus, potential barrier height, and the matrix creep behavior on the piezoresistance and its time dependence are interpreted quantitatively. These predicted results are compared with the experimental data obtained on the polymer composites filled with conductor fillers, and good agreements were obtained.",

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AU - Zhang, Xiang Wu

AU - Pan, Yi

AU - Zheng, Qiang

AU - Yi, Xiao Su

PY - 2000/11/1

Y1 - 2000/11/1

N2 - The piezoresistance and its time dependence of conductor-filled polymer composites have been investigated. To reveal the origin of the time dependence of piezoresistance, the creep of the polymer matrix is also studied. Based on the interparticle separation change under the applied stress, a model has been developed to predict the piezoresistance and its time dependence. By analyzing this model, the influences of applied stress, filler particle diameter, filler volume fraction, matrix compressive modulus, potential barrier height, and the matrix creep behavior on the piezoresistance and its time dependence are interpreted quantitatively. These predicted results are compared with the experimental data obtained on the polymer composites filled with conductor fillers, and good agreements were obtained.

AB - The piezoresistance and its time dependence of conductor-filled polymer composites have been investigated. To reveal the origin of the time dependence of piezoresistance, the creep of the polymer matrix is also studied. Based on the interparticle separation change under the applied stress, a model has been developed to predict the piezoresistance and its time dependence. By analyzing this model, the influences of applied stress, filler particle diameter, filler volume fraction, matrix compressive modulus, potential barrier height, and the matrix creep behavior on the piezoresistance and its time dependence are interpreted quantitatively. These predicted results are compared with the experimental data obtained on the polymer composites filled with conductor fillers, and good agreements were obtained.

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Time dependence of piezoresistance for the conductor-filled polymer composites

Abstract

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