Effects of Laumontite Hydration/Dehydration on Swelling Deformation and Slake Durability of Altered Granodiorite

IF 1 4区工程技术 Q4 ENGINEERING, ENVIRONMENTAL

Environmental & Engineering Geoscience Pub Date : 2020-11-01 DOI:10.2113/EEG-D-19-00004

Junsong Yan, Jun-hui Shen, Kaizhen Zhang, Jianjun Xu, Wei-feng Duan, Ri-chang Yang

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引用次数: 1

Abstract

The mineral laumontite can undergo hydration/dehydration reactions at room temperature. The hydration/dehydration produces a 3 to 6 percent volume change in the unit cell. The effects of laumontite hydration/dehydration on swelling and slake durability were investigated using altered granodiorite containing laumontite from the dam foundation of Yangfanggou Hydro Power Station, Sichuan, China. The occurrence of laumontite in altered rocks was first determined by petrological analysis. Typical samples were then collected for laboratory X-ray diffraction (XRD) analyses, free swelling tests, and slake durability index (SDI) tests. The test results were analyzed to determine the quantitative relationships between laumontite content, maximum axial strain, and slake durability index. We found that hydration of laumontite led to rock swelling. As laumontite content increased, maximum axial strain increased linearly; if water penetrated the rock quickly, swelling occurred over a short period. The hydration/dehydration of laumontite decreased slake durability of the rock; the SDI decreased approximately linearly as laumontite content increased.

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laumonite水化/脱水对蚀变花岗闪长岩溶胀变形及湖持久性的影响

矿物浊沸石可以进行水化/脱水反应在室温下。水合/脱水在细胞中产生3%到6%的体积变化。以四川阳方沟水电站坝基含烟熏石的蚀变花岗闪长岩为研究对象，研究了烟熏石水化/脱水对溶胀和湖泊耐久性的影响。首先通过岩石学分析确定了蚀变岩中湖沸石的赋存状态。然后收集典型样品进行实验室x射线衍射(XRD)分析、自由膨胀测试和湖泊耐久性指数(SDI)测试。对试验结果进行了分析，确定了湖沸石含量、最大轴向应变和湖持久指数之间的定量关系。我们发现，沸石的水化作用导致了岩石的膨胀。随着烟云母含量的增加，最大轴向应变呈线性增加;如果水很快渗入岩石，就会在短时间内发生膨胀。湖沸石的水化/脱水作用降低了岩石的缓蚀耐久性;随着沸石含量的增加，SDI呈近似线性下降。

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来源期刊

Environmental & Engineering Geoscience 地学-地球科学综合

CiteScore

2.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Environmental & Engineering Geoscience Journal publishes peer-reviewed manuscripts that address issues relating to the interaction of people with hydrologic and geologic systems. Theoretical and applied contributions are appropriate, and the primary criteria for acceptance are scientific and technical merit.

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