High performance C-A-S-H seeds and sulfate-rich lithium slag by nano-mechanochemical method on cement hydration: Microstructure and mechanical performance

IF 4.2 2区 工程技术 Q2 ENGINEERING, CHEMICAL Advanced Powder Technology Pub Date : 2024-09-05 DOI:10.1016/j.apt.2024.104623
Xingang Wang , Yong Yu , Fubing Zou , Hongyun Luo , Jiukai Cai , Jian Fu
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Abstract

This study proposed a novel method for acquiring inexpensive and efficient seeds of calcium alumina silicate hydrate (C-A-S-H). Specifically, C-A-S-H seeds (CASH) (i.e., around 373 nm) with two morphologies (i.e., foil-like and fiber-like) were observed by using fly ash and carbide slag after 4 h nano-milling and 3 days wet grinding. Moreover, the utilization of sulfate-rich lithium slag (LS) in cementitious materials was rarely reported until now. In this study, the combination effect of nano-sized LS and CASH on cement hydration was investigated systematically. It was discovered that the compressive strength of cement mortar with the combined use of very low dosage (i.e., 0.1 %) CASH and 2.0 % nano-sized LS shows around 20 MPa at the age of 18 h, which exceeds two times that of plain cement mortar and still increased by 16 % at the age of 28 days. The superior combined accelerating effect on cement hydration using the above CASH and nano-sized LS provides a choice for the requirement of high early-strength concrete and the highly-added value utilization of fly ash and lithium slag.

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用纳米机械化学方法研究高性能 C-A-S-H 种子和富含硫酸盐的锂渣对水泥水化的影响:微观结构与力学性能
本研究提出了一种获取廉价高效的水合硅酸铝钙(C-A-S-H)种子的新方法。具体来说,利用粉煤灰和电石渣,经过 4 小时纳米研磨和 3 天湿法研磨后,观察到具有两种形态(即箔状和纤维状)的 C-A-S-H 种子(即 373 nm 左右)。此外,富含硫酸盐的锂渣(LS)在胶凝材料中的应用至今鲜有报道。本研究系统研究了纳米级锂矿渣和 CASH 对水泥水化的联合影响。研究发现,联合使用极低掺量(即 0.1%)CASH 和 2.0%纳米级 LS 的水泥砂浆在 18 天龄期时的抗压强度约为 20 兆帕,超过普通水泥砂浆的 2 倍,在 28 天龄期时抗压强度仍提高了 16%。上述 CASH 和纳米级 LS 对水泥水化的卓越综合加速效果,为高早期强度混凝土的要求以及粉煤灰和锂渣的高附加值利用提供了选择。
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来源期刊
Advanced Powder Technology
Advanced Powder Technology 工程技术-工程:化工
CiteScore
9.50
自引率
7.70%
发文量
424
审稿时长
55 days
期刊介绍: The aim of Advanced Powder Technology is to meet the demand for an international journal that integrates all aspects of science and technology research on powder and particulate materials. The journal fulfills this purpose by publishing original research papers, rapid communications, reviews, and translated articles by prominent researchers worldwide. The editorial work of Advanced Powder Technology, which was founded as the International Journal of the Society of Powder Technology, Japan, is now shared by distinguished board members, who operate in a unique framework designed to respond to the increasing global demand for articles on not only powder and particles, but also on various materials produced from them. Advanced Powder Technology covers various areas, but a discussion of powder and particles is required in articles. Topics include: Production of powder and particulate materials in gases and liquids(nanoparticles, fine ceramics, pharmaceuticals, novel functional materials, etc.); Aerosol and colloidal processing; Powder and particle characterization; Dynamics and phenomena; Calculation and simulation (CFD, DEM, Monte Carlo method, population balance, etc.); Measurement and control of powder processes; Particle modification; Comminution; Powder handling and operations (storage, transport, granulation, separation, fluidization, etc.)
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