建筑工程系-7411威尼斯

陈磊

    2024-08-25 16:25:56 来源:          浏览数: 0

  陈磊

  讲师,山东临沂,1991.12. 主要从事寒区旱区岩土工程方面的工作,主要研究方向包括寒旱区渗流及寒旱区建筑物基础变形。

  2021.01,中国科学院西北生态环境资源研究院,岩土工程专业,工学博士学位。

  2021.03-至今,青岛农业大学,讲师

  主讲课程:

  1、本科生课程:建筑力学,工程力学,建筑结构与构造

  教师发展:

  1. 国家自然科学基金青年项目,42301143,冻结缘渗透系数预报模型和测试方法研究(30万), 2024-01至2026-12,在研,主持。

  2. 山东省自然科学基金青年项目,zr2022qd097,基于孔隙分布的饱和冻土和非饱和未冻土渗透系数的关系研究(15万),2023-01至2025-12,在研,主持。

  3. 青岛农业大学博士基金,饱和冻土渗透系数的宏观模型研究(10万),2023-01至2025-12,在研,主持。

  4. 青岛市金种子人才培养经费,1万。

  获得主要奖项:

  2020~2021 学年:获中国科学院大学“三好学生”称号;

  2020~2021 学年:获“朱李月华优秀博士生奖(西部)”。

  发表论文情况:

  [1] chen l, li d q, ming f, et al. a fractal model of hydraulic conductivity for saturated frozen soil [j]. water, 2019, 11(2).

  [2] chen l, zhang x y*. a model for predicting the hydraulic conductivity of warm saturated frozen soil [j]. building and environment, 2020, 179(15).

  [3] ming f, chen l*, li d q, et al. investigation into freezing point depression in soil caused by nacl solution water [j]. water, 2020 12(8).

  [4] chen l, ming f*, zhang x y et al. comparison of the hydraulic conductivity between saturated frozen and unsaturated unfrozen soils. international journal of heat and mass transfer, 2021, 165.

  [5] ming f, chen l*, li d q, et al. estimation of hydraulic conductivity of saturated frozen soil from the soil freezing characteristic curve [j]. science of the total environment, 2020, 698(1).

  [6] ming, f*, li, d. q., & chen, l. (2020). electrical resistivity of freezing clay: experimental study and theoretical model. journal of geophysical research: earth surface. 2020, 125(2)

  [7] zhang, x y; li, d q; chen, l; ming, f; liu, y h. a new integral model for predicting the hydraulic conductivity of saturated frozen soil. journal of hydrology, 2021, 603

  [8] wei x b, li, d q, ming, f, du c s, chen l, liu yuhang. influence of low-temperature curing on the mechanical strength, hydration process, and microstructure of alkali-activated fly ash and ground granulated blast furnace slag mortar. construction and building materials, 2021,269.

  [9] ming, f, pei, w s, zhang, m y, & chen, l. a hydraulic conductivity model of frozen soils with the consideration of water films. european journal of soil science, 2022, 73(1).

  [10] ming, f, zhang, m y, pei, w s, & chen, l. correction of the thermal conductivity of polyurethane insulation material under freeze-thaw and water absorption conditions and its application. cold regions science and technology, 2023, 211

  [11] ming, f, zhang, m y, pei, w s, & chen, l.. a new hydraulic conductivity model of frozen soil considering the hysteresis effect based on fractal theory. geoderma, 2024, 442: 116790

  [12] 陈磊,李东庆,明锋. 2019. 分形渗透模型在饱和冻土中的应用. 冰川冻土,41(5). 1414-1421.

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