Geologically-inspired calcium carbonate-based sustainable cementitious materials

IF 13.1 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Cement & concrete composites Pub Date : 2025-09-09 DOI:10.1016/j.cemconcomp.2025.106328

Jinzewei Nie , Wei Wang , Yamei Zhang , Zedi Zhang , Takafumi Noguchi , Ippei Maruyama

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引用次数: 0

Abstract

During geological diagenesis, calcium carbonate (Cc) particles can aggregate and solidify into dense continuous structures. Inspired by this natural process, this study proposes a new low-carbon cementitious system, Cc cementitious materials, and aims to produce dense Cc pastes within timescales comparable to those of conventional manufacturing processes. To accurately clarify the mechanism behind, high-purity Cc polymorphs (amorphous calcium carbonate (ACC), vaterite, aragonite, and calcite) were used. Results show that the densification behaviour of Cc polymorphs was influenced by the particle rearrangement capability, dissolution–precipitation characteristics, and precipitated crystal morphologies. Among those polymorphs, the paste made from ACC exhibited excellent early-age mechanical properties and could obtain a compressive strength of 23 MPa with a mild cold-sintering process. The findings suggest the potential of Cc as a binder in cold-sintered construction materials, thus providing insights for developing a low or even negative carbon Cc-based concrete from calcium-rich solid wastes and atmospheric carbon dioxide.

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受地质启发的碳酸钙基可持续胶凝材料

在地质成岩作用过程中，碳酸钙颗粒聚集固化成致密的连续结构。受这一自然过程的启发，本研究提出了一种新的低碳胶凝体系——Cc胶凝材料，旨在在与传统制造工艺相当的时间尺度内生产致密的Cc膏体。为了准确地阐明背后的机制，使用了高纯度的Cc多晶物（无定形碳酸钙（ACC）、水晶石、文石和方解石）。结果表明，Cc晶型的致密化行为受颗粒重排能力、溶解-析出特性和析出晶体形态的影响。其中，由ACC制备的浆料表现出优异的早期力学性能，通过温和的冷烧结工艺可获得23 MPa的抗压强度。研究结果表明，Cc作为冷烧结建筑材料粘合剂的潜力，从而为从富含钙的固体废物和大气二氧化碳中开发低碳甚至负碳的Cc基混凝土提供了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cement & concrete composites 工程技术-材料科学：复合

CiteScore

18.70

自引率

11.40%

发文量

459

审稿时长

65 days

期刊介绍： Cement & concrete composites focuses on advancements in cement-concrete composite technology and the production, use, and performance of cement-based construction materials. It covers a wide range of materials, including fiber-reinforced composites, polymer composites, ferrocement, and those incorporating special aggregates or waste materials. Major themes include microstructure, material properties, testing, durability, mechanics, modeling, design, fabrication, and practical applications. The journal welcomes papers on structural behavior, field studies, repair and maintenance, serviceability, and sustainability. It aims to enhance understanding, provide a platform for unconventional materials, promote low-cost energy-saving materials, and bridge the gap between materials science, engineering, and construction. Special issues on emerging topics are also published to encourage collaboration between materials scientists, engineers, designers, and fabricators.