Experimental study on the deterioration mechanisms of physical and mechanical properties of red sandstone after thermal-acid coupling treatment

IF 7.4 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Henggen Zhang , Tao Liu , Yuxue Cui , Jianguo Zheng , Weihua Wang , Yanbin Li
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Abstract

Sandstone, a primary construction material for many renowned historical structures, may experience long-term stability degradation due to combined effects of fire and acidic hydrochemical environments. To effectively protect and restore these historical buildings, it is crucial to investigate the deterioration patterns and mechanisms of mechanical properties of sandstone under thermo-acid (t-a) coupling conditions. In this study, red sandstone specimens were subjected to coupled treatment of high temperatures (300°C and 600°C) and sulfuric acid (H2SO4) solutions at pH=2. Subsequently, the physical properties (including appearance, mass, P-wave velocity, and porosity) and mechanical properties (including static and dynamic compressive and tensile strengths) of the treated specimens were evaluated. Techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), and X-ray computed tomography (CT) were utilized to investigate the mineralogy, microstructure, and crack propagation of specimens. The results revealed that the t-a coupling treatment led to a significant increase in mass loss and porosity, along with a decrease in P-wave velocity. Above the threshold temperature, high temperature became the dominant damage factor, and damage exhibited a distinct size effect. The static and dynamic mechanical properties of red sandstone decreased significantly after t-a coupling treatment, with the failure mode being more complex. After immersion in coupling with H2SO4 solution at 600°C, the amount of gypsum formed on the specimen surface decreased, and the static peak stress (σt) and dynamic peak stress (σd) decreased by 41.18 % and 26.21 %, respectively. High temperatures caused the connections between mineral particles to weaken, primarily affecting minerals other than feldspars, while immersion in H2SO4 solution initiated intense reactions between calcite, goethite, hematite, and chlorite with H+ ions. After t-a coupling treatment, the crack morphology became more intricate, with an increase in the three-dimensional (3D) crack volume.
红砂岩经热酸耦合处理后物理力学性能劣化机理的实验研究
砂岩是许多著名历史建筑的主要建筑材料,在火灾和酸性水化学环境的共同作用下,可能会出现长期稳定性退化。为了有效保护和修复这些历史建筑,研究砂岩在热酸(t-a)耦合条件下的力学性能劣化模式和机制至关重要。在本研究中,红砂岩试样经受了高温(300°C 和 600°C)和 pH=2 的硫酸(H2SO4)溶液的耦合处理。随后,对处理后试样的物理特性(包括外观、质量、P 波速度和孔隙率)和机械特性(包括静态和动态抗压和抗拉强度)进行了评估。利用 X 射线衍射 (XRD)、扫描电子显微镜 (SEM)、能量色散光谱 (EDS) 和 X 射线计算机断层扫描 (CT) 等技术来研究试样的矿物学、微观结构和裂纹扩展。结果表明,t-a 耦合处理导致质量损失和孔隙率显著增加,同时 P 波速度下降。在阈值温度以上,高温成为主要的损伤因素,损伤表现出明显的尺寸效应。经过 t-a 耦合处理后,红砂岩的静态和动态力学性能显著下降,破坏模式更加复杂。在 600°C 下用 H2SO4 溶液浸泡耦合后,试样表面形成的石膏量减少,静态峰值应力(σt)和动态峰值应力(σd)分别降低了 41.18 % 和 26.21 %。高温导致矿物颗粒之间的连接减弱,主要影响到长石以外的矿物,而在 H2SO4 溶液中浸泡会引发方解石、鹅卵石、赤铁矿和绿泥石与 H+ 离子之间的激烈反应。经过 t-a 耦合处理后,裂纹形态变得更加复杂,三维(3D)裂纹体积增大。
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来源期刊
Construction and Building Materials
Construction and Building Materials 工程技术-材料科学:综合
CiteScore
13.80
自引率
21.60%
发文量
3632
审稿时长
82 days
期刊介绍: Construction and Building Materials offers an international platform for sharing innovative and original research and development in the realm of construction and building materials, along with their practical applications in new projects and repair practices. The journal publishes a diverse array of pioneering research and application papers, detailing laboratory investigations and, to a limited extent, numerical analyses or reports on full-scale projects. Multi-part papers are discouraged. Additionally, Construction and Building Materials features comprehensive case studies and insightful review articles that contribute to new insights in the field. Our focus is on papers related to construction materials, excluding those on structural engineering, geotechnics, and unbound highway layers. Covered materials and technologies encompass cement, concrete reinforcement, bricks and mortars, additives, corrosion technology, ceramics, timber, steel, polymers, glass fibers, recycled materials, bamboo, rammed earth, non-conventional building materials, bituminous materials, and applications in railway materials.
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