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Piezoresistive cement-based materials for strain sensing

Chung, D.D.L.

Cement-based materials that exhibit piezoresistivity with sufficient magnitude and reversibility contain electrically conductive fibers. The phenomenon allows the materials to sense their own strain. The fibers are preferably discontinuous. Carbon fibers (15 micron diameter) are most effective. Steel fibers (8 micron diameter) are less effective. Carbon filaments (0.1 micron diameter) are ineffective. The piezoresistive behavior, mechanism and materials are reviewed, including cement-based materials with continuous and discontinuous fibers.

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Piezoresistive cement-based materials for strain sensing

Chung, D.D.L.

Cement-based materials that exhibit piezoresistivity with sufficient magnitude and reversibility contain electrically conductive fibers. The phenomenon allows the materials to sense their own strain. The fibers are preferably discontinuous. Carbon fibers (15 micron diameter) are most effective. Steel fibers (8 micron diameter) are less effective. Carbon filaments (0.1 micron diameter) are ineffective. The piezoresistive behavior, mechanism and materials are reviewed, including cement-based materials with continuous and discontinuous fibers.

Piezoresistive cement-based materials for strain sensing

Chung, D.D.L.

Cement-based materials that exhibit piezoresistivity with sufficient magnitude and reversibility contain electrically conductive fibers. The phenomenon allows the materials to sense their own strain. The fibers are preferably discontinuous. Carbon fibers (15 micron diameter) are most effective. Steel fibers (8 micron diameter) are less effective. Carbon filaments (0.1 micron diameter) are ineffective. The piezoresistive behavior, mechanism and materials are reviewed, including cement-based materials with continuous and discontinuous fibers.

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Title:

Piezoresistive cement-based materials for strain sensing

Additional title:

Piezoresistive, auf Zement basierende Materialien für die Dehnungsmessung

Contributors:

Chung, D.D.L. (author)

Published in:

Journal of Intelligent Material Systems and Structures ; 13 ; 599-609

Publication date:

2002

Size:

11 Seiten, 69 Quellen

ISSN:

DOI:

https://doi.org/10.1106/104538902031861

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Carbonfaser , Beton , Schwingungsregelung , leitfähige Faser , hydraulischer Zement , piezoelektrischer Stoff , Piezoelektrizität , Stahlfaser , Langfaser , Schwingungssteuerung und -regelung

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