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不同养护制度下低热水泥超高性能混凝土力学性能研究
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| 王 敏,李依芮,张坤悦,等 |
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Study on mechanical properties of ultra-high-performance concrete with low heatcement under difffferent curing systems
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WANG Min, et al.
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摘要
基于超高性能混凝土(UHPC)绿色化发展趋势及低热水泥(贝利特相为主)早期强度低的背景,对比研究了标准
养护、蒸汽养护、蒸压养护条件下制备的低热水泥UHPC与硅酸盐水泥UHPC的强度及水化微结构。结果表明:低热
水泥UHPC 的拆模强度(标准养护)即1 d强度低于硅酸盐水泥UHPC,但在28 d和90 d时高于硅酸盐水泥UHPC。低
热水泥UHPC 热养护后即时力学强度发展明显提高,超过硅酸盐水泥UHPC。低热水泥UHPC 浆体的C-S-H含量更高,
CH含量更低,基体密实度更高,热养护后尤为明显。在蒸压养护90 d时,低热水泥UHPC 的最高抗压强度为
197.5 MPa。
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| Abstract:
Based on the backgrounds of green development trend of ultra-high-performance concrete (UHPC)and low early
strength of low-heat cement (mainly belite phase), the strength and hydration microstructure of low heat cement UHPC and
Portland cement UHPC prepared under standard curing, steam curing and autoclave curing conditions were studied. The
results showed that the compressive strength and flexural strength of UHPC were lower than ordinary Portland cement after
1 day of standard curing, but which was higher than ordinary Portland cement at 28 days age and 90 days age. After thermal
curing, the mechanical strength of low heat cement UHPC is significantly improved, exceeding the ordinary Portland cement
UHPC. UHPC paste of low-heat cement has higher C-S-H content, lower CH content and higher density of matrix, which is
especially obvious after thermal curing. When autoclaved curing for 90 days, the maximum compressive strength of low heat
cement UHPC is 197.5 MPa.
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| Key words:
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出版日期: 2023-07-06
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2023, Vol. 0 
