Abstract:Research purposes: Steam curing is a common curing method of track slab concrete, but high temperature steam curing is easy to cause internal damage of hydration products. In order to study the suitable accelerated curing method of track slab concrete, the effect of different curing methods on cement hydration and mechanical properties was explored. The temperature rise, strain, compressive strength and hydration process of track slab concrete were measured and the micro morphology of hydration product was observed under four curing methods, such as 45 ℃ steam curing, 45 ℃ dry heat curing, heat preservation curing and nature curing. Research conclusions:(1) The temperature rise rate was quicker under steam curing and dry heat curing, the early compressive strength was improved significantly, thermal expansion deformation was exhibited at 0~7 h and shrinkage deformation was discovered after 7 h. Meanwhile, there were more hydration products at early stage, such as Ca(OH)2 and AFt, and more micro cracks at later stage, which made the later strength reduced. (2) The temperature rise rate of concrete under heat preservation curing were lower than the concrete under steam curing and dry heat curing, which could promote the early compressive strength of concrete. The demoulding strength of track slab concrete can meet requirement after curing 18 h. The concrete mainly showed shrinkage deformation under heat preservation curing, fewer defects of hydration products and stable strength in the later stage. (3) The heat preservation curing can be used as an accelerated curing method for track slab concrete.
谢永江,李康,胡建伟,等. 高速铁路混凝土结构混凝土技术创新及发展方向[J]. 土木工程学报,2021(10):72-81.Xie Yongjiang, Li Kang, Hu Jianwei, etc. Technology Innovation and Development Tendency of Concrete Structure Durability for High-Speed Railway[J]. China Cicil Engineering Journal, 2021(10):72-81.
[2]
TK/GW 156—2016,高速铁路CRTSⅢ型板式无砟轨道先张法预应力混凝土轨道板暂行技术条件[S].TK/GW 156—2016,Provisional Technical Conditions for Pretensioned Prestressed Concrete Track Slab of CRTS Ⅲ Slab Ballastless Track of High Speed Railway[S].
[3]
Liu Baoju,Xie Youjun,Li Jian. Influence of Steam Curing on the Compressive Strength of Concrete Containing Supplementary Cementing Materials[J]. Cement and Concrete Research, 2005(5):994-998.
[4]
谢友均,王猛,马昆林,等. 不同养护温度下蒸养混凝土的冲击性能[J]. 建筑材料学报,2020(3):521-528.Xie Youjun, Wang Meng, Ma Kunlin,etc. Impact Mechanical Characteristics of Steam Cured Concrete under Different Curing Temperatures[J]. Journal of Building Materials,2020(3):521-528.
[5]
Gallucci E, Zhang X, Scrivener K L. Effect of Temperature on the Microstructure of Calcium Silicate Hydrate[J]. Cement and Concrete Research, 2013,53:185-195.
[6]
胡少伟,娄本星,尹阳阳,等. 蒸养混凝土早期断裂性能研究[J]. 水利水运工程学报,2020(4):88-95.Hu Shaowei, Lou Benxing, Yin Yangyang,etc. Experimental Study on Early Fracture Properties of Steam-Cured Concrete[J]. Hydro-science and Engineering, 2020(4):88-95.
[7]
彭小芹,蒲心诚,白光. 灰砂混凝土常压干热养护工艺[J]. 重庆大学学报:自然科学版,2003(3):138-142.Peng Xiaoqin, Pu Xincheng, Bai Guang. Technology of Atmospherical Dry-heating Curing to Lime-sand Concrete[J]. Journal of Chongqing University Natural Science Edition,2003(3):138-142.
[8]
魏刚,彭小芹,王淑萍,等. 养护参数对常压干热养护灰砂混凝土力学性能的影响[J]. 材料科学与工程学报,2018(4):635-638.Wei Gang, Peng Xiaoqin, Wang Shuping, etc. Influence of Curing Parameters on Strength of Atmospheric Dry-heating Curing Lime-sand Concrete[J]. Journal of Materials Science and Engineering, 2018(4):635-638.
2023, Vol. 40 
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