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ZJUS-A
Journal of Zhejiang University-SCIENCE A (Applied Physics & Engineering)  2011, Vol. 12 Issue (2): 162-170    DOI: 10.1631/jzus.A1000385
Chemical Engineering     
Effect of temperature on the hydration process and strength development in blends of Portland cement and activated coal gangue or fly ash
Pei-ming Wang, Xian-ping Liu
Key Laboratory of Advanced Civil Engineering Materials (Tongji University), Ministry of Education, Shanghai 201804, China
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Abstract  This paper describes the results of an investigation into the effect of the variation of curing temperatures between 0 and 60 (C on the hydration process, pore structure variation, and compressive strength development of activated coal gangue-cement blend (ACGC). Hardened ACGC pastes cured for hydration periods from 1 to 360 d were examined using the non-evaporable water method, thermal analysis, mercury intrusion porosimetry, and mechanical testing. To evaluate the specific effect of activated coal gangue (ACG) as a supplementary cementing material (SCM), a fly ash-cement blend (FAC) was used as a control. Results show that raising the curing temperature accelerates pozzolanic reactions involving the SCMs, increasing the degree of hydration of the cement blends, and hence increasing the rate of improvement in strength. The effect of curing temperature on FAC is greater than that on ACGC. The pore structure of the hardened cement paste is improved by increasing the curing temperature up to 40 °C, but when the curing temperature reaches 60 °C, the changing nature of the pore structure leads to a decrease in strength. The correlation between compressive strength and the degree of hydration and porosity is linear in nature.

Key wordsActivated coal gangue (ACG)      Fly ash (FA)      Blended cement      Hydration      Curing temperature      Strength     
Received: 25 August 2010      Published: 08 February 2011
CLC:  TQ172  
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Pei-ming Wang, Xian-ping Liu. Effect of temperature on the hydration process and strength development in blends of Portland cement and activated coal gangue or fly ash. Journal of Zhejiang University-SCIENCE A (Applied Physics & Engineering), 2011, 12(2): 162-170.

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http://www.zjujournals.com/xueshu/zjus-a/10.1631/jzus.A1000385     OR     http://www.zjujournals.com/xueshu/zjus-a/Y2011/V12/I2/162

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