Enhancing hydration of steel slag-based composite cementitious material: Synergistic effect of triisopropanolamine (TIPA) and sulfite/sulfate

IF 10.9 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Cement and Concrete Research Pub Date : 2024-07-27 DOI:10.1016/j.cemconres.2024.107619

Rui Sun , Peiliang Shen , Dongmin Wang , Jixiang Wang , Ze Liu , Kuizhen Fang

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Abstract

This study enhanced the hydration of steel slag (SS) by the synergistic chemical activation of triisopropanolamine (TIPA) and sulfite/sulfate. Adding 0.2% TIPA into a cementitious material consisting of 62.5% SS and 37.5% desulfurization ash (DA) increased the 3-days and 120-days compressive strength by 9.59 times and 1.78 times, respectively. This enhancement was due to the accelerated dissolution of C₂S and C₂F facilitated by DA and TIPA. The complexation between TIPA and Fe accelerated the consumption of Ca²⁺ and SO₄²⁻, thereby promoted the generation of Fe-containing hydrates such as C₂(F, A)₃S₃H₂ and FeSO₄·7H₂O, significantly refining the pore structure. The TIPA-Fe complex also contributed to C-(F)-S-H gels formation, shifting hydration exothermal peak from 4.8 h to 1.1 h, with the peak value rising from 0.90 J/(g·h) to 57.07 J/(g·h). The Fe evolution even induced a colour change in the matrix. These insights contribute valuable perspectives for utilizing Fe-rich solid-wastes in cementitious materials.

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提高钢渣基复合胶凝材料的水合作用：三异丙醇胺（TIPA）和亚硫酸盐/硫酸盐的协同效应

本研究通过三异丙醇胺（TIPA）和亚硫酸盐/硫酸盐的协同化学活化作用增强了钢渣（SS）的水化作用。在由 62.5% SS 和 37.5% 脱硫灰（DA）组成的胶凝材料中加入 0.2% 的 TIPA 后，3 天和 120 天的抗压强度分别提高了 9.59 倍和 1.78 倍。这种提高是由于 DA 和 TIPA 促进了 CS 和 CF 的加速溶解。TIPA 与铁的络合加速了 Ca 和 SO 的消耗，从而促进了 C(F, A)SH 和 FeSO-7HO 等含铁水合物的生成，显著改善了孔隙结构。TIPA-Fe 复合物还促进了 C-(F)-S-H 凝胶的形成，使水合放热峰值从 4.8 h 下降到 1.1 h，峰值从 0.90 J/(g-h) 上升到 57.07 J/(g-h)。铁的演变甚至引起了基质颜色的变化。这些见解为在水泥基材料中利用富含铁的固体废弃物提供了宝贵的视角。

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来源期刊

Cement and Concrete Research 工程技术-材料科学：综合

CiteScore

20.90

自引率

12.30%

发文量

318

审稿时长

53 days

期刊介绍： Cement and Concrete Research is dedicated to publishing top-notch research on the materials science and engineering of cement, cement composites, mortars, concrete, and related materials incorporating cement or other mineral binders. The journal prioritizes reporting significant findings in research on the properties and performance of cementitious materials. It also covers novel experimental techniques, the latest analytical and modeling methods, examination and diagnosis of actual cement and concrete structures, and the exploration of potential improvements in materials.