膨润土缓冲层材料热传导特性的高温劣化效应OA
Deterioration effect on thermal conductivity of bentonite as buffer material in hype-temperature conditions
为研究膨润土缓冲层材料热传导特性的高温劣化效应,对膨润土粉末进行了不同温度(T=25,100,150,200℃)的热老化预处理;采用热探针法测定了预处理后高压实膨润土试样的导热系数λ,探讨了热老化温度 T 对λ的影响规律;基于激光粒度分析、X 射线衍射和热重分析等试验,揭示出热老化温度 T 对膨润土试样 λ 影响的微观机理.试验结果表明:随着 T 的升高,膨润土试样λ值逐渐递减,最大降幅为 6.99%,试样λ-T 曲线以 T=100℃为界点呈分段递减趋势,且高温(100~200℃)条件对试样λ的劣化效果更显著;造成上述现象的本质原因在于:T≤100℃(25~100℃)时,温度作用主要引起膨润土中各形态水脱附(自由水、弱结合水大幅度脱附),结合水膜变薄,土颗粒粒径减小,导致试样内固相体积减少、气相体积增加,λ缓慢降低;T>100℃(100~200℃)时,温度作用促使土中各形态水(自由水、弱结合水和强结合水)的全部脱附,使土颗粒粒径进一步减小,另一方面高温条件引起试样中主要矿物蒙脱石部分转化为密度和吸水性均较高、导热系数较低的钠云母,上述2方面的共同作用导致了试样λ的温度劣化效应更显著.
To investigate deterioration effect on thermal conductivity of bentonite as a buffer material in hype-temperature conditions,the bentonite powder is pretreated at different thermal aging temperatures(T=25,100,150,200℃).The thermal conductivity of compacted bentonite samples after pretreatment is measured by thermal probe method,and the effect of temperature T on thermal conductivity λ is discussed.Based on the tests of laser particle size analysis,X-ray diffraction and thermogravimetric analysis,the microscopic mechanism of the effect of temperature T on the λ of bentonite samples is revealed.The results show that the λ of bentonite decreases gradually with the increase of temperature T,and the maximum decrease is 6.99%.The λ-T curve of the samples shows a piecewise decreasing trend with T=100℃as the boundary point,and the deterioration effect of λ is more significant under high temperatures(100~200℃).The essential reason for the aforementioned changes is that when T≤100℃(25~100℃),the temperature effect is predominantly manifested through the desorption of the free and weakly bound water,the thinning of the bound water film,the reduction of the particle size of bentonite,resulting in the reduction of the solid phase volume and the increase of the gas phase volume in the samples,which leads to the λ decreases.When T>100℃(100~200℃),the above temperature effect is further intensified and further reduces the particle size of the soil.On the other hand,the high temperature causes the part of montmorillonite to transform into mica sodium with high density and water absorption and low λ,resulting in a more obvious reduction of λ in the sample.
曾召田;林铭宇;吕海波;范理云;曹珊珊;任天翔
桂林理工大学广西岩土力学与工程重点实验室,广西 桂林 541004桂林理工大学广西岩土力学与工程重点实验室,广西 桂林 541004桂林理工大学广西岩土力学与工程重点实验室,广西 桂林 541004||贺州学院建筑与电气工程学院,广西 贺州 542899桂林理工大学广西岩土力学与工程重点实验室,广西 桂林 541004||贺州学院建筑与电气工程学院,广西 贺州 542899桂林理工大学广西岩土力学与工程重点实验室,广西 桂林 541004桂林理工大学广西岩土力学与工程重点实验室,广西 桂林 541004
建筑与水利
MX80膨润土导热系数高温劣化微观机理激光粒度分析
MX80 bentonitethermal conductivitytemperature deteriorationmicro-mechanismlaser particle size analysis
《岩土工程学报》 2026 (4)
740-748,9
国家自然科学基金项目(42167020)广西自然科学基金项目(2023GXNSFAA026187)广西研究生教育创新计划项目(YCSW2024360)This work was supported by the National Natural Science Foundation of China(Grant No.42167020),the National Natural Science Foundation of Guangxi(Grant No.2023GXNSFAA026187)and Guangxi Postgraduate Education Innovation Program Project(Grant No.YCSW2024360).
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