[1] 膨胀岩土多尺度耦合性质劣化特征

[2] 特殊土力学性状衰变机理与变形调控

[3] 重大服役工程病害识别与健康诊断技术

[1]  国家自然科学基金面上项目：膨胀土胀缩特性的多尺度耦合研究, 2022.1~2025.12, 主持, 60万。

[2]  国家自然科学基金青年科学基金项目：膨胀土裂隙再生演化规律与多重裂隙网络模型, 2018.1~2020.12, 主持, 23万。

[3]  中国科学院人才项目：中国科学院青年创新促进会会员，2022.01~2025.12，主持，80万。

[4]  湖北省重点研发计划项目：安全智能感知与大数据诊断技术研究与应用, 2022.05~2024.12, 主持, 146万。

[5]  重大岩土工程项目：沪蓉线黄草山隧道底板上拱变形成因及其发展规律分析, 2021.07~2021.11, 主持, 94.2万。

[6]  重大岩土工程项目：新建山西中南部铁路通道弃土（渣）场整改设计, 2020.12~2021.11, 主持, 98万。

[7]  中国科学院武汉岩土力学研究所创新探索面上项目：易致灾网纹石灰岩残积红黏土的工程特性及灾害成因分析, 2020.06~2022.06, 主持, 30万。

[8]  “十二五”科技支撑计划项目课题：强膨胀土（岩）渠道处理技术, 2011.8~2014.12, 技术骨干, 504万。

[9]  国家自然科学基金面上项目：考虑裂隙与湿胀效应的膨胀土边坡渗流变形耦合分析方法, 2016.1~2019.12, 执行负责人, 74万。

[10] 重大岩土工程项目：成渝客专内江北站路基异常变形成因及其发展规律分析, 2017.11~2020.06, 执行负责人, 348.5万。

[11] 重大岩土工程项目：皖江上游地区易致灾地层边坡灾害成因分析及风险防控技术, 2018.04~2020.01, 执行负责人, 79.2万。

[1] Dai Zhangjun, Zhao Chenyang, Guo Chengchao, et al. System Reliability Analysis of Soil Nail Walls against Facing Failures. International Journal of Geomechanics. 2021, 21(9), 04021171.

[2] Dai Zhangjun*, Guo Jianhua, Yu Fei, et al. Long-term uplift of high-speed railway subgrade caused by swelling effect of red-bed mudstone: case study in Southwest China. Bulletin of Engineering Geology and the Environment. 2021, 80(6), 4855-4869.

[3] Huang Kang, Yu Fei, …, Dai Zhangjun*. Relationship between capillary water absorption mechanism and pore structure and microfracture of red-layer mudstone in central Sichuan. Bulletin of Engineering Geology and the Environment. 2023.

[4] Huang Kang, Yu Fei, …, Dai Zhangjun*. Experimental and Numerical Simulation Study on the Influence of Gaseous Water on the Mechanical Properties of Red？Layer Mudstone in Central Sichuan. Rock Mechanics and Rock Engineering. 2023

[5] Dai Zhangjun*, Chen Shanxiong, Li Jian. Physical model test of seepage and deformation characteristics of shallow expansive soil slope. Bulletin of Engineering Geology and the Environment. 2020, 79(8), 4063-4078.

[6] Huang Kang, Dai Zhangjun*, Yan Chengzeng, et al. Numerical study on the swelling and failure of red-layer mudstone subgrade caused by humidity diffusion. Computers and Geotechnics. 2023, 156: 105272.

[7] Tong Kai-wen, Guo Jian-hua, …, Dai Zhang-jun*. Effects of the interaction between neighboring droplets on the stability of nanoscale liquid bridges. Construction and Building Materials. 2022, 126627.

[8] Dai Zhangjun*, Wang Yinhui, Zhou Zhe, et al. Analysis of the deterioration process of the dolomite with the interlayer in different directions during wetting. Frontiers in Materials. 2022, 9, 1084906.

[9] Zhang Wei, Li Jiang-Shan, …, Dai Zhang-Jun*. Effect of layer charge density and cation concentration on sorption behaviors of heavy metal ions in the interlayer and nanopore of montmorillonite: A molecular dynamics simulation. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2022, 657:130553.

[10] Huang Kang, Yu Fei, …, Dai Zhangjun*. Influence of pH on moisture？absorbing swelling cracks of red layer in central Sichuan and its micro？mechanism. Environmental Earth Sciences. 2022, 81:441.

[11] Zhang Wei, Chen Shanxiong, …, Dai Zhangjun*, ... Effects of the Layer Charge Location and Interlayer Cation on Rectorite Swelling Properties: Comparison between Molecular Dynamics Simulations and Experiments. The Journal of Physical Chemistry C. 2022, 126(22), 9597–9609.

[12] Dai Zhangjun*, Huang Kang, Jiang Lingfa, et al. Shear Strength Characteristics of Clay-Gravel Layer and Its Slope Failure Law and Mechanism. Frontiers in Earth Science. 2022, 865697.

[13] Tong Kaiwen, Guo Jianhua, …, Dai Zhangjun*. Evolution of capillary force of nano-scale liquid bridge between kaolinite particles considering stratification. Materials Today Communications. 2021, 28, 102675.

[14] 戴张俊*, 郭建华, 周哲, 等. 川中红层高铁路基长时上拱变形反演与预测. 岩石力学与工程学报. 2020.

[15] 戴张俊*, 陈善雄, 罗红明,等 . 非饱和膨胀土/岩持水与渗透特性试验研究. 岩土力学. 2013.

[16] 戴张俊*, 陈善雄, 罗红明,等 .南水北调中线膨胀土/岩微观特征及其性质研究. 岩土工程学报. 2013.

[17] 陈善雄, 戴张俊*, 陆定杰, 等.考虑裂隙分布及强度的膨胀土边坡稳定性分析. 水利学报. 2014.