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AR-Glass Fibre-Cement Interfacial Transition Zone

AR-Glass Fibre-Cement Interfacial Transition Zone
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摘要 The microstructure of ITZ (Interfacial Transition Zone) in single glass fibre-cement was investigated by SEM ( Scanning Electron Microscope), EPXM ( Electron Probe X-ray Microanalyzer) and ESEM (Environmental Scanning Electron Microscope) . The surface morphology of glass fibres and the hydration products in the vicinity of the interfaces were observed. Chemical element (Zr, Ca and Si) distributions over the ITZ thickness were determined by line-scanning with EPXM. The results show that a low-density transition zone existed in the vicinity of glass fibres . The shape of the fibre-cement ITZ was non-symmetrical and its thickness was variable . In the present study, the width of the zone ranged from 1 - 5 μm. Locally, it came to 10μm. Occasionally , some hydration products with high alkalinity were embedded inside the ITZ, and attached on the glass surface , making the ITZ denser and causing local glass to corrode. The test results are helpful for the further understanding of the GRC degradation . The microstructure of ITZ (Interfacial Transition Zone) in single glass fibre-cement was investigated by SEM ( Scanning Electron Microscope), EPXM ( Electron Probe X-ray Microanalyzer) and ESEM(Environmental Scanning Electron Microscope) . The surface morphology of glass fibres and the hydration products in the vicinity of the interfaces were observed. Chemical element (Zr, Ca and Si) distributions over the ITZ thickness were determined by line-scanning with EPXM. The results show that a low-density transition zone existedin the vicinity of glass fibres . The shape of the fibre-cement ITZ was non-symmetrical and its thickness was variable . In the present study, the width of the zone ranged from 1 - 5 μm. Locally, it came to 10μm. Occasionally , some hydration products with high alkalinity were embedded inside the ITZ, and attached on the glass surface , making the ITZ denser and causing local glass to corrode. The test results are helpful for the further understanding of the GRC degradation .
作者 水中和
出处 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2001年第4期19-22,共4页 武汉理工大学学报(材料科学英文版)
基金 Funded by a Chinese-Dutch Cooperation Project "Concrete Composite Technology
关键词 AR- glass fiber interface transition zone MICROSTRUCTURE AR- glass fiber interface transition zone microstructure
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