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Identification and Activation of Coal Gangue and Performance of Limestone Calcined Gangue Cement

Wang, Bin / Sui, Tongbo / Sui, Hao

Gangue, a typical waste associated with the coal mining process in northern China, was characterized before and after thermal treatment by XRF, XRD, TGA-DSC, and SEM. The pozzolanic reactivity of calcined gangue with different calcined temperature was tested by standard mortar strength and R³ calorimetry test. The performance of blended cement was evaluated by mortar strength and flow. The XRD and TGA-DSC analyses showed that the main minerals that present in the raw gangue were kaolinite, and a small amount of carbon-based compounds and metakaolin were almost the only phase in calcined gangue. After thermal treatment and depending on the temperature, it showed very high reactivity especially combined with limestone. The strength property of limestone calcined gangue cement with 45% replacement of clinker was higher than reference cement (CEM I 42.5 N) on 7 and 28 days. Furthermore, it is found that the calcined gangue has less influence on the workability of LC³ according to particle morphology compared with a typical calcined clay, based on the results of SEM observation.

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Identification and Activation of Coal Gangue and Performance of Limestone Calcined Gangue Cement

Wang, Bin / Sui, Tongbo / Sui, Hao

Gangue, a typical waste associated with the coal mining process in northern China, was characterized before and after thermal treatment by XRF, XRD, TGA-DSC, and SEM. The pozzolanic reactivity of calcined gangue with different calcined temperature was tested by standard mortar strength and R³ calorimetry test. The performance of blended cement was evaluated by mortar strength and flow. The XRD and TGA-DSC analyses showed that the main minerals that present in the raw gangue were kaolinite, and a small amount of carbon-based compounds and metakaolin were almost the only phase in calcined gangue. After thermal treatment and depending on the temperature, it showed very high reactivity especially combined with limestone. The strength property of limestone calcined gangue cement with 45% replacement of clinker was higher than reference cement (CEM I 42.5 N) on 7 and 28 days. Furthermore, it is found that the calcined gangue has less influence on the workability of LC³ according to particle morphology compared with a typical calcined clay, based on the results of SEM observation.

Identification and Activation of Coal Gangue and Performance of Limestone Calcined Gangue Cement

Wang, Bin / Sui, Tongbo / Sui, Hao

Gangue, a typical waste associated with the coal mining process in northern China, was characterized before and after thermal treatment by XRF, XRD, TGA-DSC, and SEM. The pozzolanic reactivity of calcined gangue with different calcined temperature was tested by standard mortar strength and R³ calorimetry test. The performance of blended cement was evaluated by mortar strength and flow. The XRD and TGA-DSC analyses showed that the main minerals that present in the raw gangue were kaolinite, and a small amount of carbon-based compounds and metakaolin were almost the only phase in calcined gangue. After thermal treatment and depending on the temperature, it showed very high reactivity especially combined with limestone. The strength property of limestone calcined gangue cement with 45% replacement of clinker was higher than reference cement (CEM I 42.5 N) on 7 and 28 days. Furthermore, it is found that the calcined gangue has less influence on the workability of LC³ according to particle morphology compared with a typical calcined clay, based on the results of SEM observation.

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Title:

Identification and Activation of Coal Gangue and Performance of Limestone Calcined Gangue Cement

Additional title:

RILEM Bookseries

Contributors:

Bishnoi, Shashank (editor) / Wang, Bin (author) / Sui, Tongbo (author) / Sui, Hao (author)

Published in:

Calcined Clays for Sustainable Concrete ; Chapter: 45 ; 381-389

RILEM Bookseries ; 25

Publication date:

2020-04-14

Size:

9 pages

ISBN:

978-981-15-2806-4 , 978-981-15-2805-7

ISSN:

2211-0852 , 2211-0844

DOI:

https://doi.org/10.1007/978-981-15-2806-4_45

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Coal gangue , Reactivity , Blended cement , Performance Engineering , Building Materials , Sustainable Architecture/Green Buildings , Characterization and Evaluation of Materials , Solid Construction , Building Construction and Design

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