主要从事能源岩土工程（能源桩技术及应用）、岩土体多场耦合试验及理论等相关研究，近年来累积发表学术论文20余篇，其中以第一或通讯作者在J. Geotech. Geoenviron. Eng.、Can. Geotech. J.、Comput. Geotech.、Geomech. Energy Environ.、岩土工程学报、岩土力学等岩土与工程地质领域国内外权威SCI/EI期刊13篇，入选ESI高被引论文1篇，授权发明专利1项。主持国家自然科学基金项目1项，入选中国科协首届青年人才托举工程博士生专项计划。

担任国际岩土领域权威SCI期刊《ACTA Geotech.》、《Geomech. Energy Environ.》、《Case Stud. Constr. Mat.》、《Geothermics》审稿人、国内权威EI期刊《土木工程学报》助理编辑

[1] 国家自然科学基金青年学生基础研究项目，2025.01-2026.12，主持

[1] Fang J., Feng S.*, Zhao Y., Xi W., Chen H. Load-displacement response and interaction behavior of energy pile groups under thermomechanical loading. Can. Geotech. J., 2025, 62: 1-23
[2] Fang J., Feng S*, Zhao Y., Chen H. Displacement analysis and prediction method for energy pile foundations under thermomechanical loads. Geomech. Energy Environ., 2025, 43: 100725
[3] Fang J., Zhao Y.*, Feng S., Chen H., Zhou X. Thermo-hydro-mechanical behavior of soft soils beneath energy shallow foundations subjected to thermal and mechanical loads. Comput. Geotech., 2024, 176: 106790
[4] Fang J., Feng S., Zhao Y.*, Xi W. Thermo-visco-elastic analysis of thermomechanical behavior of energy pile groups considering time-dependent deformation characteristics of soils. Comput. Geotech., 2023, 163: 105748
[5] Fang J., Feng S.*, Zhao Y., Kong G., Chen H. Numerical investigations on thermally induced group behavior of field-scale energy piles. Comput. Geotech., 2023, 162: 105705
[6] Kong G., Fang J.*, Yang Q. Effects of pile and soil properties on thermally induced mechanical responses of energy piles. Comput. Geotech., 2023, 154: 105176
[7] Fang J., Kong G.*, Yang Q. Group performance of energy piles under cyclic and variable thermal loading. J. Geotech. Geoenviron. Eng., 2022, 148: 04022060
[8] Kong G., Fang J.*, Huang X., Liu H., Abuel-Naga H. Thermal induced horizontal earth pressure changes of pipe energy piles under multiple heating cycles. Geomech. Energy Environ., 2021, 26: 100228
[9] Fang J., Kong G.*, Meng Y., Wang L., Yang Q. Thermomechanical behavior of energy piles and interactions within energy pile-raft foundations. J. Geotech. Geoenviron. Eng., 2020, 146: 04020079
[10] Feng S.*, Fang J., Zhao Yong, Zhang Z., Wang Y. Thermomechanical analysis of energy piles using a novel load-transfer approach considering soil coupling effects. Comput. Geotech., 2024, 168: 106147
[11] 方金城, 冯世进*, 赵勇.考虑桩端持力层效应的能源桩受力变形特性研究. 岩土工程学报, 2024, 46: 2049-2077
[12] 方金城, 孔纲强*, 孟永东, 许晓亮, 刘红程. 低承台2×2能量桩基础单桩运行热力耦合特性研究. 岩土工程学报, 2020, 42: 317-324
[13] 方金城, 孔纲强*, 陈斌, 车平, 彭怀风, 吕志祥. 混凝土水化作用对群桩热力学特性影响现场试验. 岩土力学, 2019, 40: 2997-3003
[14] Fang J.*, Feng S., Zhao Y., Chen H., Zhou X. Analytical investigations on thermomechanical behavior of energy pile groups resting on stiff soil strata. IOP Conf. Series: Earth and Environmental Science, 2024, 1335: 012042
[15] Xi W., Zhao Y., Feng S., Chen H., Fang J. Long-term soil thermal imbalance analysis of the energy pile considering ambient thermal boundary. Can. Geotech. J., 2025, 62: 1-22
[16] Chen R., Wu D., Zhang T., Kong G., Fang J. Thermo-mechanical behavior of energy piles equipped with PCM tubes. Comput. Geotech., 2025, 179: 107005
[17] Wu D., Kong L., Kong G., Fang J., Wang C. Thermo-mechanical behavior of an energy retaining pile for geothermal extraction. Geomech. Energy Environ., 2024, 40: 100587
[18] Xi W., Zhao Y. Feng S., Fang J., Chen H. Sun W. Heat transfer characteristics of energy piles considering temperature-dependent soil thermal conductivity. Comput. Geotech., 2024, 172: 106467
[19] 魏明畅, 孟永东*, 朱超, 方金城, 孔纲强. 回填土钻孔灌注桩-承台混凝土水化作用效应现场试验. 防灾减灾工程学报, 2019, 39: 622-627
[20] 黄旭, 孔纲强, 刘汉龙, 方金城, 杨挺. 不封底PCC能量桩与传统能量桩换热效率对比研究. 防灾减灾工程学报, 2018, 38: 867-873

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