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Elucidating the hydration properties of paste containing thin film transistor liquid crystal display waste glass

Lin, Kae-Long / Wang, Nian-Fu / Shie, Je-Lueng / Lee, Tzen-Chin / Lee, Chau

This study discusses the TFT/LCD (thin film transistor liquid crystal display) WGBC (waste glass-blended cement) pastes. It presents their compressive strength, their products of hydration and solid silicates changes. The samples were subjected to Fourier transformation infrared spectroscopy, differential thermal and thermo-gravimetric analysis and 29.Si magnetic angle spinning/nuclear magnetic resonance. The experimental XRD (X-ray diffraction) results demonstrated the speciation of the TFT-LCD waste glass, and that the major component was SiO2. At 40% substitution of TFT-LCD waste glass, at 28 days and 56 days, the compressive strength was 35% and 30% lower, respectively, than that of the Portland cement paste. The intensity of the Ca(OH)2 band at 3710 cm^-1 in the 56-day hydrated products of the WGBC pastes that contain TFT-LCD waste glass exhibit comparatively weak peaks suggesting that much Ca(OH)2 during hydration was consumed. Later, the C-S-H contents of the WGBC pastes increased, revealing that liberated Ca(OH)2 was consumed in pozzolanic reactions.

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Elucidating the hydration properties of paste containing thin film transistor liquid crystal display waste glass

Lin, Kae-Long / Wang, Nian-Fu / Shie, Je-Lueng / Lee, Tzen-Chin / Lee, Chau

This study discusses the TFT/LCD (thin film transistor liquid crystal display) WGBC (waste glass-blended cement) pastes. It presents their compressive strength, their products of hydration and solid silicates changes. The samples were subjected to Fourier transformation infrared spectroscopy, differential thermal and thermo-gravimetric analysis and 29.Si magnetic angle spinning/nuclear magnetic resonance. The experimental XRD (X-ray diffraction) results demonstrated the speciation of the TFT-LCD waste glass, and that the major component was SiO2. At 40% substitution of TFT-LCD waste glass, at 28 days and 56 days, the compressive strength was 35% and 30% lower, respectively, than that of the Portland cement paste. The intensity of the Ca(OH)2 band at 3710 cm^-1 in the 56-day hydrated products of the WGBC pastes that contain TFT-LCD waste glass exhibit comparatively weak peaks suggesting that much Ca(OH)2 during hydration was consumed. Later, the C-S-H contents of the WGBC pastes increased, revealing that liberated Ca(OH)2 was consumed in pozzolanic reactions.

Elucidating the hydration properties of paste containing thin film transistor liquid crystal display waste glass

Lin, Kae-Long / Wang, Nian-Fu / Shie, Je-Lueng / Lee, Tzen-Chin / Lee, Chau

This study discusses the TFT/LCD (thin film transistor liquid crystal display) WGBC (waste glass-blended cement) pastes. It presents their compressive strength, their products of hydration and solid silicates changes. The samples were subjected to Fourier transformation infrared spectroscopy, differential thermal and thermo-gravimetric analysis and 29.Si magnetic angle spinning/nuclear magnetic resonance. The experimental XRD (X-ray diffraction) results demonstrated the speciation of the TFT-LCD waste glass, and that the major component was SiO2. At 40% substitution of TFT-LCD waste glass, at 28 days and 56 days, the compressive strength was 35% and 30% lower, respectively, than that of the Portland cement paste. The intensity of the Ca(OH)2 band at 3710 cm^-1 in the 56-day hydrated products of the WGBC pastes that contain TFT-LCD waste glass exhibit comparatively weak peaks suggesting that much Ca(OH)2 during hydration was consumed. Later, the C-S-H contents of the WGBC pastes increased, revealing that liberated Ca(OH)2 was consumed in pozzolanic reactions.

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Title:

Elucidating the hydration properties of paste containing thin film transistor liquid crystal display waste glass

Contributors:

Lin, Kae-Long (author) / Wang, Nian-Fu (author) / Shie, Je-Lueng (author) / Lee, Tzen-Chin (author) / Lee, Chau (author)

Published in:

Journal of Hazardous Materials ; 159 ; 471-475

Publication date:

2008

Size:

5 Seiten, 10 Bilder, 3 Tabellen, 13 Quellen

ISSN:

DOI:

https://doi.org/10.1016/j.jhazmat.2008.02.044

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Glas , Flüssigkristallanzeige , Zement , Hydratation , puzzolanische Reaktion , Druckfestigkeit , Abfallverwertung

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