代表成果
论文与专著:
[1]李梦天,李术才,张霄,等.挤压式偏心回转泵试验研究,哈尔滨工业大学学报, 2019.
[2]李梦天,张霄,李术才,等.基于数值模拟和模型实验的注浆抬升计算方法,哈尔滨工业大学学报, 2019.
[3].M.T. Li, N. Zhang*, H. Cai, C.Y. Ma, J.H. Zhang, H.P. Wang*, Y.H. Wu, Y.P. Xie. Key Technology Analysis and Development Trend of Fracturing Grouting in Complex Rock and Soil Mass[J]. Polish journal of environmental studies, Accept.
[4] M.T.Li, X.Zhang*, B.Han Bin, et al. Effect of pH value on the growth and properties of magnesium phosphate cement paste with a large water-to-solid fraction[J]. Advances in Cement Research, 2020.
[5] M.T.Li,X.Zhang*,W. Kuang, et al. Grouting reinforcement of shallow and small-spacing tunnels[J]. Polish journal of environmental studies, 2021.
[6] M.T.Li,S.C.Li,X.Zhang*, et al. Performance evaluation and flow analysis of two-cylinder triangular rotor pump based on experiment and numerical simulation[J]. Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2019.
[7]李术才,李梦天,张霄,等.基于数值模拟与实验的三角转子泵性能研究,农业机械学报, 2018.
[8]S.C.Li,M.T.Li, X.Zhang*, et al. Study on A New Design of Grouting Pump for Managing Water Inrush in Karst Tunnels, The Civil Engineering Journal, 2018.
[9]J.G.Liu,X.Zhang,M.T.Li*, et al. Research on permeation grouting mechanism considering gravity in the treatment of mud inrush disaster[J]. Polish journal of environmental studies, 2021.
[10]Y.X. Sun, X. Zhang*,M.T. Li*, et al. Enhanced geothermal system productivity analysis of a well-group in a limited area based on the flow field split method, Environmental Earth Sciences, 2021.
[11]D.K.Sun, C.Wang, M.T.Li*, H.P.Wang, X.Zhang, B.Zhang. Study on Diffusion Control Mechanism of Split Slurry Veins Based on Soil Compaction Effect[J]. Polish journal of environmental studies, 2024, 33(1), 859-872.
[12]B. Zhang, H.P. Wang, P. Wang, M.T. Li*, Macro- and microdamage characteristics and multiscale damage constitutive model of gas-bearing coal under loading[J]. Review of Scientific Instruments, 2021.
[13]S. Wang, H.P. Wang, Z.D. Zhu, M.T. Li*, W.B. Xing, Physical simulation technologies and testing system for cavern shape control from single-well solution mining in rock salt[J]. Review of Scientific Instruments, 2021.
[14]王汉鹏,李梦天,张冰,杨为民,等.研究生自我修养,山东大学出版社,2023.
[15]王汉鹏,李术才,张冰,李梦天,等.地下工程物理模拟,山东大学出版社,2022.
专利与软件著作权:
[1]李梦天,王凯,王汉鹏,张霄,张冰,戚厚羿,郑瑞阶. Zwei-Flüssigkeiten-Vergusssystem. 2021,德国, NR.202021105971.
[2]李梦天,王川,王汉鹏,李志杰,张冰,邢嘉鹏,蔡恒.一种采空区离层多层位注浆地表沉陷控制试验装置及方法.中国, 202211693975.8.
[3]李梦天,王川,王汉鹏,马川义,邱廷麟,张宁,张冰,蔡恒,邢嘉鹏.一种一体化阵列式多元信息真三轴注浆试验系统及方法.中国, 202311278397.6.
[4]李梦天,蔡恒,王汉鹏,林春金,李召峰,张冰,宋宁,王伟.一种超前预注浆施工中高温水防喷引流智能化装置及方法.中国, 202311010117.3.
[5]李梦天,邱廷麟,李术才,林春金,王汉鹏,刘人太,杨磊,张冰.一种高温水引流防喷装置及使用方法.中国, 202311010110.1.
[6]李梦天,王汉鹏,白子涵,张冰,侯夫斌,王伟,邢文彬.一种用于模型试验方形隧洞掘进的试验装置.中国, 202310593533.4.
[7]李梦天,王汉鹏,侯夫斌,张冰,白子涵,王伟,邢文彬.基于勒洛三角形原理的模型试验用方形隧洞仿形掘进装置.中国, 202310593546.1.
[8]李梦天,李术才,王汉鹏,郭文婷,张冰,邢文彬,孙德康.基于虚拟现实技术模拟地质力学模型试验系统搭建方法.中国, 202311429095.4.
[9]李梦天,潘占一,王汉鹏,杨磊,林春金,杨为民,张健.一种适用于多工法作业的钻注动力系统.中国, 202410214490.9.
[10]李梦天,李术才,潘占一,王汉鹏,杨磊,林春金,李召峰.一种全空间钻注一体化装置.中国, 202311429095.4.
[11]李梦天,潘占一,李术才,杨磊,王汉鹏,张庆松,孙子正.一种旋喷法注浆用钻头、钻具及方法.中国, 202410214518.9.
[12]李梦天,李术才,王汉鹏,林春金,叶继红,陈伟,张健.一种耐高温柔性传力材料及其制备方法和应用.中国, 202410161195.1.
[13]李梦天,王汉鹏,郑瑞阶,张冰,白继文,邢嘉鹏,蔡恒.高压大流量注浆维养装备智能化控制系统.软件著作权,中国, 2023SR1125488.
[14]李梦天,王汉鹏,张冰,郑瑞阶,邢嘉鹏,王鹏.复杂环境智能重构物理模拟实验虚拟现实系统.软件著作权,中国, 2021SR2045269.
[15]李梦天,王汉鹏,张冰,王伟,孙德康,邢文彬.地下工程灾害防治物理模拟虚拟仿真实验系统.软件著作权,中国, 2024SR0248785.
[16]李梦天,王汉鹏,张冰,王鹏,邢嘉鹏,邱廷麟.智能化模型试验辊简式煤层回采及废渣输送系统.软件著作权,中国,2022SR1203955.
