Enhancement of the energy dissipation capacity C-S-H gel through self-crosslinking the poly (vinyl alcohol)

IF 10.9 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Cement and Concrete Research Pub Date : 2024-09-01 DOI:10.1016/j.cemconres.2024.107648

Huasheng Zhu , Xuli Lan , Xiaohui Zeng , Guangcheng Long , Youjun Xie

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Abstract

Damping cementitious materials have been widely used in engineering structures for vibration control. However, achieving a balance between the mechanical strength and damping capacity of cementitious materials remains a challenge. Herein, we utilized an initiator (APS) to initiate the self-crosslinking reaction of PVA molecules in C₃S paste, then successfully introduced the viscoelastic PVA membranes into C-S-H gel to enhance its energy dissipation capacity. Results showed that the self-crosslinking PVA (scPVA) increased the loss modulus ( $E^{''}$ ) of C-S-H gel by about 158 %, increased loss tangent ( $tan δ$ ) by 85 % and increased the compressive strength by 24 %. Nano-microscopic tests and molecular dynamics (MD) simulation confirmed that scPVA was introduced into C-S-H gel via the hydrogen-bonding interaction, and then formed the viscoelastic PVA membranes, which promoted C₃S hydration, reduced the pore size of C-S-H gel and increased the mean chain length (MCL) of C-S-H gel. This study proposes a novel approach for designing high-damping cementitious materials.

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通过自交联聚乙烯醇提高 C-S-H 凝胶的能量耗散能力

阻尼胶凝材料已广泛应用于工程结构的振动控制。然而，如何在水泥基材料的机械强度和阻尼能力之间取得平衡仍然是一个挑战。在本文中，我们利用引发剂（APS）引发了 C3S 浆料中 PVA 分子的自交联反应，然后成功地将粘弹性 PVA 膜引入 C-S-H 凝胶中，以增强其能量耗散能力。结果表明，自交联 PVA（scPVA）使 C-S-H 凝胶的损失模量（E′′）提高了约 158%，损失正切（tanδ）提高了 85%，抗压强度提高了 24%。纳米显微测试和分子动力学（MD）模拟证实，scPVA 通过氢键作用被引入 C-S-H 凝胶，然后形成粘弹性 PVA 膜，促进了 C3S 的水合，减小了 C-S-H 凝胶的孔径，增加了 C-S-H 凝胶的平均链长（MCL）。这项研究为设计高阻尼胶凝材料提出了一种新方法。

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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.