Properties of cement-based composites by doping nano-TiO2

Guoxuan Xiong; Min Deng; Lingling Xu; Mingshu Tang

Properties of cement-based composites by doping nano-TiO₂

Guoxuan Xiong, Min Deng, Lingling Xu, Mingshu Tang

College of Materials Science and Engineering

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

20 Scopus citations

Abstract

Cement-based composites were prepared by using nano-TiO₂ dispersed by ultrasonication as an additive to the composites. The uniformity of the distribution and the stability of nano-TiO₂ in the cement matrix of the composites were determined by electron probe X-ray micro-analysis and infrared spectrometry, and the structure of the composites was observed with scanning electron microscopy. The conductivity, electromagnetic parameters and wave-absorbing capability and mechanical properties of the composites were investigated. The experimental results indicate that there is greater stability of nano-TiO₂ in the cement matrix. The cement-based composite with 5.0% (in mass) nano-TiO₂ had better dielectric and wave-absorbing capabilities in the 12.5-18 GHz frequency range (KU waveband), and its conductivity reaches 57.0 × 10^-3 S·cm^-1. The least reflectivity is -16.34 dB and the bandwidth for -10 dB is 4.5 GHz.

Original language	English
Pages (from-to)	1158-1161
Number of pages	4
Journal	Kuei Suan Jen Hsueh Pao/Journal of the Chinese Ceramic Society
Volume	34
Issue number	9
State	Published - Sep 2006

Keywords

Cement
Cement-based composites
Nano-titania
Ultrasonic wave

Cite this

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title = "Properties of cement-based composites by doping nano-TiO2",

abstract = "Cement-based composites were prepared by using nano-TiO2 dispersed by ultrasonication as an additive to the composites. The uniformity of the distribution and the stability of nano-TiO2 in the cement matrix of the composites were determined by electron probe X-ray micro-analysis and infrared spectrometry, and the structure of the composites was observed with scanning electron microscopy. The conductivity, electromagnetic parameters and wave-absorbing capability and mechanical properties of the composites were investigated. The experimental results indicate that there is greater stability of nano-TiO2 in the cement matrix. The cement-based composite with 5.0% (in mass) nano-TiO2 had better dielectric and wave-absorbing capabilities in the 12.5-18 GHz frequency range (KU waveband), and its conductivity reaches 57.0 × 10-3 S·cm-1. The least reflectivity is -16.34 dB and the bandwidth for -10 dB is 4.5 GHz.",

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author = "Guoxuan Xiong and Min Deng and Lingling Xu and Mingshu Tang",

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T1 - Properties of cement-based composites by doping nano-TiO2

AU - Xiong, Guoxuan

AU - Deng, Min

AU - Xu, Lingling

AU - Tang, Mingshu

PY - 2006/9

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N2 - Cement-based composites were prepared by using nano-TiO2 dispersed by ultrasonication as an additive to the composites. The uniformity of the distribution and the stability of nano-TiO2 in the cement matrix of the composites were determined by electron probe X-ray micro-analysis and infrared spectrometry, and the structure of the composites was observed with scanning electron microscopy. The conductivity, electromagnetic parameters and wave-absorbing capability and mechanical properties of the composites were investigated. The experimental results indicate that there is greater stability of nano-TiO2 in the cement matrix. The cement-based composite with 5.0% (in mass) nano-TiO2 had better dielectric and wave-absorbing capabilities in the 12.5-18 GHz frequency range (KU waveband), and its conductivity reaches 57.0 × 10-3 S·cm-1. The least reflectivity is -16.34 dB and the bandwidth for -10 dB is 4.5 GHz.

AB - Cement-based composites were prepared by using nano-TiO2 dispersed by ultrasonication as an additive to the composites. The uniformity of the distribution and the stability of nano-TiO2 in the cement matrix of the composites were determined by electron probe X-ray micro-analysis and infrared spectrometry, and the structure of the composites was observed with scanning electron microscopy. The conductivity, electromagnetic parameters and wave-absorbing capability and mechanical properties of the composites were investigated. The experimental results indicate that there is greater stability of nano-TiO2 in the cement matrix. The cement-based composite with 5.0% (in mass) nano-TiO2 had better dielectric and wave-absorbing capabilities in the 12.5-18 GHz frequency range (KU waveband), and its conductivity reaches 57.0 × 10-3 S·cm-1. The least reflectivity is -16.34 dB and the bandwidth for -10 dB is 4.5 GHz.

KW - Cement

KW - Cement-based composites

KW - Nano-titania

KW - Ultrasonic wave

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Properties of cement-based composites by doping nano-TiO₂

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