(3) 
Mingrui Du, Zhenyang Wang, Hongyuan Fang, et al., Statistical damage constitutive model for the two-component foaming polymer grouting material. Reviews on Advanced Materials Science, 2022, 61:350-362.
(4) Hongyang Liu, Mingrui Du(通讯作者), Boyang Zhang, et al., Study on the
combined mining scheme for coal resources under high-voltage pylons and the reinforcement for pylons. Energies, 2022, 15, 3978.
(5) Hao Zhang, Mingrui Du(通讯作者), Yan Zhao, et al., The shear damage model of the two-component foaming polymer grouting material-bentonite contact surface. Advances in Materials Science and Engineering, 2022, 1843131.
(6) Hongyuan Fang, Qiankun Zheng, Mingrui Du(通讯作者), et al., Study of the mechanical properties and constitutive model of the roadbed rehabilitation polyurethane grouting materials under uniaxial compression. Journal of Applied Polymers Science, 2022, 139, 22.
(7) Xijun Zhang, Mingrui Du(通讯作者), Hongyuan Fang, et al., Polymer-Modified Cement Mortars: Their Enhanced Properties, Applications, Prospects, and Challenges. Construction and Building Materials, 2021, 299, 124290.
(8) Zhenyang Wang, Mingrui Du(通讯作者), Hongyuan Fang, et al., Influence of different corrosion environments on mechanical properties of a roadbed rehabilitation polyurethane grouting material under uniaxial compression. Construction and Building Materials, 2021, 301, 124092.
(9) Xijun Zhang, Hongyuan Fang, Mingrui Du(通讯作者), et al., Experimental study on the mechanical properties of the fiber cement mortar containing polyurethane. Advances in Materials Science and Engineering, 2021, 9956897.
(10) Manjun Li, Mingrui Du(通讯作者), Fuming Wang, et al., Study on the mechanical properties of polyurethane (PU) grouting material of different geometric sizes under uniaxial compression. Construction and Building Materials, 2020, 259: 119797.
(11) Mingrui Du, Hongwen Jing, Yuan Gao, et al., Carbon nanomaterials enhanced cemen-based composites: advances and challenges. Nanotechnology Reviews, 2020, 9: 115-135.
(12) Mingrui Du, Yuan Gao, Guansheng Han, et al., Stabilizing effect of methylcellulose on the dispersion of multi-walled carbon nanotubes in cement-based composites. Nanotechnology Reviews, 2020, 9: 93-104.
(13) Mingrui Du, Shujian Chen, Wenhui Duan, et al., Role of Multiwalled Carbon
Nanotubes as Shear Reinforcing Nanopins in Quasi-Brittle Matrices. ACS Applied Nano Materials, 2018, 1(4): 1731-1740.
(14) Mingrui Du, Hongwen Jing, Wenhui Duan, et al., Methylcellulose stabilized mul-walled carbon nanotubes dispersion for sustainable cement composites. Construction and Building Materials, 2017, 146: 76-85.
(15) 杜明瑞, 靖洪文, 苏海健, 等. 孔洞形状对砂岩强度及破坏特征的影响. 工程
力学, 2016, 33(7): 190-196.
(16) 杜明瑞, 靖洪文, 苏海健, 等. 含预制椭圆形孔洞砂岩强度及破坏特征 试验研究. 中国矿业大学学报, 2016, 45(6): 1164-1171.
(17) 杜明瑞, 靖洪文, 苏海健. 椭圆形孔洞对砂岩试样强度及变形特性影响 研究. 采矿与安全工程学报, 2017, 34(1): 141-147.
三、授权专利
[1] 杜明瑞,方宏远,杜雪明,薛冰寒,张皓月,董博源. 一种高强度耐腐蚀碳纳米管改性混凝土及其制备方法,202011592030.8
[2] 杜明瑞,方宏远,赵焱,张皓月,薛冰寒,杜雪明,李曼珺. 定量表征高聚物注浆材料与混凝土接触面形貌特征的方法,202111043420.4.
[3] 杜明瑞,方宏远,赵焱,董博源,杜雪明,薛冰寒,张超. 一种用于测试高聚物注浆材料拉伸力学性能的装置及方法,2021110131112.1.
[4] 杜明瑞,方宏远,王子轩,张皓月,董博源,薛冰寒,杜雪明. 测试高聚物注浆材料对土体膨胀作用力的装置及方法,202111081634.0.
[5] 王振扬,杜明瑞,方宏远,张超,石明生,杜雪明,李逢源,郑前坤. 一种多场耦合作用下注浆材料特性演化模拟试验装置及方法,202011284098.X.
[6] 方宏远,杜雪明,李斌,赵鹏,潘艳辉,王磊,杜明瑞,梁佳森,霍璐阳. 一种地下碎石砂层扩展式注浆管及其注浆方法,CN202210539009.4
[7] 方宏远,李斌,谢永恩,孙明明,于威,王印,杜明瑞,杜雪明.一种测试埋地管道力学性能影响机理的装置,CN202210247551.2
[8] 方宏远,赵鹏,杜明瑞,杜雪明,樊炳森,李斌. 排水管道修补可视化智能旋喷方法,CN202010119124.7
[9] 苏海健,郭庆振,韩观胜,靖洪文,刘嘉伟,蔚立元,杜明瑞. 基于三点弯曲试验的岩石 I 型裂纹扩展全过程检测方法,CN201610627422.0
