Effect of Nano-TiO2 Dioxide on the Hydration Process of Tunnel Construction in Low-Temperature Environments
Yongchun Jiao, Huijian Chen, Shengfu Xu, Fei Fu, Yipeng Tao, Sheng’ai Cui

TL;DR
This study shows that adding nano-TiO2 to concrete improves its strength and hydration in cold weather, with 1% being the most effective dosage.
Contribution
The study introduces the optimal use of 1% nano-TiO2 in low-temperature concrete for enhanced early strength and improved pore structure.
Findings
Nano-TiO2 at 1% dosage significantly increases early compressive and tensile strength by 20% and 26%, respectively.
The 1% dosage reduces porosity and interconnected pores, leading to a more optimal pore structure in low-temperature concrete.
Nano-TiO2 accelerates cement hydration and shortens setting times, with 3% dosage reducing initial setting time to 3.3 minutes.
Abstract
To address winter construction challenges such as slow early-stage strength development, inhibited hydration processes, and pore structure defects in concrete under low-temperature conditions, this study employs nano-TiO2 as a modifying agent. It is incorporated into concrete through cement replacement methods; the study systematically investigates the influence of different admixture dosages (1%, 2%, 3%, by cement mass) on the mechanical properties, hydration process, and micro-pore structure of concrete. The test employed an electro-hydraulic servo universal testing machine to measure compressive and splitting tensile strengths. Differential thermal analysis (DTA) characterized the formation of hydration products (Ca(OH)2). Micro-CT technology and pore network modeling were utilized to quantify micro-pore parameters. Results indicate that (1) nano-TiO2 regulates the setting time of…
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Taxonomy
TopicsConcrete Properties and Behavior · Concrete and Cement Materials Research · Innovative concrete reinforcement materials
