陈磊

　　讲师，山东临沂，主要从事寒旱区岩土工程方面的工作，主要研究方向包括土壤渗流、土壤抗渗改良、土壤抗冻融变形改良，土与结构物相互作用及低温混凝土养护等方面的研究。

　　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，88858cc永利，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：

　　 主持国家自然科学基金青年项目1项，山东省自然科学基金青年项目1项，校级基金项目1项，青岛市金种子人才培养经费1项，参与山东省自然科学基金面上项目、青岛市科学基金面上项目以及多项横向课题。

　　获得主要奖项：

　　2020～2021 学年：获“朱李月华优秀博士生奖（西部）”。

　　发表论文情况：

　　[1] Lei Chen, Xiyan Zhang*, Feng Ming, et al, Series capillary bundle model for simultaneously estimating the hydraulic conductivity for saturated frozen soil and unfrozen unsaturated soil [J], Catena, 2025, 260.

　　[2] Lei Chen, Xiyan Zhang, Feng Ming, Dan Meng, Xiaolong Xu, New models for hydraulic conductivity of saturated frozen soil utilizing generalized hydraulic conductivity models of unsaturated unfrozen soil and the soil freezing characteristic curve [J], Journal of Hydrology: Regional Studies, 2025, 62.

　　[3] Xiyan Zhang, Lei Chen*, Lipei Guan, Study on discrete prediction model for mechanical behavior of buried pipelines under the influence of differential frost heave [J], Scientific Report, 2025, 15.

　　[4] Xiyan Zhang, Lei Chen*, Yu Sheng, et al. Modeling mechanical behavior of buried pipe suffering from frost-heaving force based on the Winkler Elastic Foundation Beam Theory [J], Transportation Geotechnics, 2024, 49.

　　[5] 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.

　　[6] 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.

　　[7] 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).

　　[8] 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.

　　[9] 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.

　　[10] 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.

　　[11] Chen Lei, Zhang Xiyan*. A model for predicting the hydraulic conductivity of warm saturated frozen soil [J]. Building and Environment, 2020, 179(15).

　　[12] 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).

　　[13] 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).

　　[14] 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)

　　[15] Chen L, Li D Q, Ming F, et al. A Fractal Model of Hydraulic Conductivity for Saturated Frozen Soil [J]. Water, 2019, 11(2).

　　[16] 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.

　　邮箱：chenlei8@lzb.ac.cn