代表成果
代表性论文:
[1] Wang, M., Zhang, C., Jiang, P., Yan, J., Liu, R. andChen, M.*, Effects of temperature and bleeding on rheology of cement paste.Construction and Building Materials,2023,403, 133085.
[2] Li, X., Zhu, Z., Liu, R., Zhang, C., Zhang, Q., Li, S. andChen, M.*, Preparation of anti-washout cement-stabilized marine soft clay for scouring protection of wind power pile foundations.Marine Georesources & Geotechnology,2023, 1-13.
[3] Zhu, Z., Xu, X., Liu, R., Liu, P., Tang, H., Zhang, C., Li, X., Liu, Y., Bai, J. andChen, M.*, Feasibility study of highly alkaline biomass ash to activate alkali-activated grouts.Construction and Building Materials,2023,393, 132067.
[4] Zhang, C., Wang, M., Liu, R., Li, X., Liu, Y., Jiang, P., Yan, J., Zhu, Z. andChen, M.*, Rheological properties of cement-based slurry and evaluation of rheological model: Influence of particle size and shape.Construction and Building Materials,2023,406, 133498.
[5] Zhang, C., Wang, M., Li, X., Liu, R., Yan, J., Zhu, Z. andChen, M.*, Synergistic effect of PTB emulsion, CaCO3whisker and Nano-SiO2on the properties of cement-based materials.Journal of Materials Research and Technology,2023,27, 11-29.
[6] Ma, C., Gong, Y.A.,Chen, M.*, Liu, R., Bai, J., Zheng, Z. and Zhou, M., Treatment of Water Inrush in Mine Engineering Using a Superabsorbent Polymer: A Case Study of a Limestone Mine, PingNan, China.Mine Water and the Environment,2023,42(3), 460-471.
[7] Gong, Y.A., Shao, C., Wang, Z., Liu, R., Zhang, Q., Ren, Z., Zhu, Z., Zhao, D., Bai, J., Tian, J. andChen, M.*, Feasibility study on the preparation of ternary cement with calcined slag powder and seashell powder as supplementary cementitious materials.Construction and Building Materials,2023,409, 134223.
[8] Li, J.,Chen, M., Zhou, S., Li, H. and Hao, J., Self-assembly of fullerene C60-based amphiphiles in solutions.Chemical Society Reviews,2022,51(8), 3226-3242.
[9]Chen, M., Yin, K., Zhang, G., Liu, H., Ning, B., Dai, Y., Li, H.,* & Hao, J.* Magnetic and Biocompatible Fullerenol/Fe(III) Microcapsules with Antioxidant Activities.ACS Applied Bio Materials,2020,3(1), 358-368.
[10]Chen, M., Zhou, S., Guo, L., Wang, L., Yao, F., Hu, Y., Li, H.,* & Hao, J.*, Aggregation Behavior and Antioxidant Properties of Amphiphilic Fullerene C60Derivatives Co-functionalized with Cationic and Nonionic Hydrophilic Groups.Langmuir,2019,35(21), 6939-6949.
发明专利:
[1]一种防泌水聚合物、低回缩充填固废材料及制备方法与应用.
[2]一种浆液单向流动钻注一体钻杆及施工方法.
[3]一种岩溶管道型涌水高效封堵超高膨胀注浆材料及其制备、使用方法和应用.
[4]一种超吸水纤维水泥基自修复材料及制备方法.
[5]一种自修复水泥基复合材料及制备方法和应用.
[6]一种用于壁后充填的强抗渗微膨胀固废注浆材料及制备方法.
[7]一种高固废含量的纤维聚合物修复材料及其制备方法.
[8]海底盾构隧道受力变形及止水失效试验系统及方法.
[9]一种低碳无机胶凝注浆充填材料及制备方法与应用.
[10] EXPANSIVE POLYMER GROUTING MATERIAL FOR TREATING HIGH-PRESSURE LARGE-FLOW-RATE KARST WATER INRUSH AND PREPARATION METHOD THEREOF. (美国发明专利)
学术奖励:
[1] 2023年,中国煤炭工业协会科技进步二等奖,排名第2。
[2]2023年,中国岩石力学与工程学会科技进步一等奖,排名第5。
[3]2023年,山东省科技进步一等奖,排名第12。
[4]2022年,中国安全生产协会科技进步一等奖,排名第6。
[5]2023年,中国交通运输协会科技进步一等奖,排名第15。