交通与土木建筑学院
School of Transportation, Civil Engineering & Architecture

导师介绍

李犇

2020-06-10

李犇,工学博士,特聘教授,研究方向为固废资源化及制备建材的关键技术;水泥基材料的多尺度损伤机理;水泥基材料的耐候性损伤机理。

一、教育工作经历

 2019.08—至今         特聘教授        佛山科学技术学院            专业:土木工程

2015.10—2018.03   联合培养博士     北海道大学(世界排名74)    专业:材料科学

2013.09—2018.06     博  士        哈尔滨工程大学(211工程)    专业:固体力学

2012.09—2013.07               哈尔滨工程大学(211工程)    专业:土木工程,硕博连读

2008.09—2012.07     学  士        山东科技大学(山东省重本)   专业:土木工程,学士学位

二、科研项目及成果

交通运输部公路科学研究院项目:2019年开放基金课题项目:抛填骨料混凝土路面的断裂机理研究,主持,3万,在研;

佛山市科技局,佛山市高层次人才科技启动项目,南海环境下海工混凝土的关键材料与技术研究,099/CGG07255,2020-1至2022-12,50万,在研,主持;

佛山水木金谷环境科技有限公司,企业委托科技研发项目(横向课题),污泥制备生态水泥砌块的关键材料研究,2020-32021-920.0万,在研,主持;

佛山格耐特新型建筑材料科技有限公司,企业委托科技研发项目(横向课题),无机再生石材和混凝土制品的材料特性以及工程应用性能研究, 2020-52021-1011.0万,在研,主持;

共发表论文40余篇,SCI论文15篇,EI论文3篇,会议论文20余篇,

SCI总影响因子IF=43.08,总引用量=63

[1] Combined effects of graphite tailings and curing conditions on the early-age performances of cement mortar. Advances in Materials Science and Engineering. 2020. JCR 3区,共同第一作者,唯一通讯作者

[2] Measurement of coarse aggregates movement characteristics within asphalt mixture using digital image processing methods. Measurement 163 (2020) 107948. 第四作者

[3] Effect of graphite tailings as substitute sand on mechanical properties of concrete. European Journal of Environmental and Civil Engineering. DOI: 10.1080/19648189.2020.1763476. JCR 3区,共同第一作者,唯一通讯作者

[4] Mechanical and Electroconductivity Properties of Graphite Tailings Concrete. Advances in Materials Science and Engineering. 2020, 9385097, 20. JCR 3区,共同第一作者,唯一通讯作者

[5] Coupled effects of the content and methylene blue value (MBV) of microfines on the performance of manufactured sand concrete. Construction and Building Materials 240 (2020) 117953, JCR 1区,中科院顶刊,共同第一作者,唯一通讯作者

[6] Mesoscopic Cracking Model of Cement-Based Materials Subjected to Freeze-Thaw Cycles. Construction and Building Materials, 211 (2019) 1050-1064. SCI检索,JCR 1区,中科院顶刊,第一作者

[7] Meso-mechanical research on alkali-silica reaction expansion in Pyrex glass and silica sand at different temperatures and curing times. Construction and Building Materials 223 (2019) 377–393. SCI检索,JCR 1区,中科院顶刊,第一作者,通讯作者

[8] Degradation Characteristics of Graphite Tailings Cement Mortar Subjected to Freeze-Thaw Cycles. Construction and Building Materials 234(2020) 117422, JCR 1区,中科院顶刊,共同第一作者,通讯作者

[9] Comment on the paper of P. Kathirvel et al. [ACI Materials Journal, 115 (2018) 481-492]. ACI Materials Journal, March (2019)133-136. SCI检索,JCR 3区,行业TOP5期刊,第一作者,唯一通讯作者

[10] A new fracture model for reservoir ice layers in the northeast cold region of China. Construction and Building Materials, 191 (2018) 795-811. SCI检索,JCR 1区,中科院顶刊,共同第一作者,唯一通讯作者

[11] Micro-mechanical modelling for the prediction of alkali-silica reaction (ASR) expansion: Influence of curing temperature conditions. Construction and Building Materials, 147(2017) 79-90. SCI检索,JCR 1区,中科院顶刊,第一作者,唯一通讯作者

[12] Mesoscopic damage model of concrete subjected to freeze-thaw cycles using mercury intrusion porosimetry and differential scanning calorimetry (MIP-DSC). Construction and Building Materials, 147(2017) 79-90. SCI检索,JCR 1区,中科院顶刊,第一作者

[13] Mesoscopic chloride ion diffusion model of marine concrete subjected to freeze-thaw cycles. Construction and Building Materials, 125(2016) 337-351. SCI检索,JCR 1区,中科院顶刊,第一作者

[14] Effects of micropore structure on hydration degree and mechanical properties of concrete in later curing age. European Journal of Environmental and Civil Engineering, 2016, 5(20) 544-559. SCI检索,JCR 3区,第一作者

[15] Investigation of the rheological properties of cement paste with different superplasticisers based on color function and RDS methods. Advances in Cement Research, 2016, 28(6), 357-370. SCI检索, JCR 3区,第一作者

EI

[1] Ben Li, Jize Mao, Qingyongguo and Jianfu Lv. Study on the damage mechanism of pore structure in concrete subjected to freeze-thaw cycles. The Civil Engineering Journal, 2015, 2, 1-8. 

[2] Ben Li, Zhongrui Wang. Mesoscopic Model on Frost Resistance of Marine Concrete Subjected to Chloride Ion. Advances in Civil Engineering Materials, 2019, 8, 88-100.

[3] 刘立明,毛继泽,吕建福,李犇,郭庆勇. 环境湿度对玻璃纤维增强水泥力学性能的影响. 复合材料学报. 2016, 5, 33, 1072-1078.

普通期刊文章

[1] Ming Cui, Jize Mao Daoguang Jia and Ben Li. Experimental study on mechanical properties of Marine sand and seawater concrete. AER-Advances in Engineering Research. 2014, 7, 106-111.

[2] Ali Jamshidi, Kiyofumi Kurumisawa, Toyoharu Nawa, Jize Mao, Ben Li. Characterization of effects of thermal property of aggregate on the carbon footprint of asphalt industries in China. Journal of Traffic and Transportation Engineering (English Edition). 2017, 4(2), 118-130.

会议论文

[1] 毛继泽,李犇,崔明,贾道光. 海工混凝土氯离子侵蚀的细观机理研究. ICACME-2013会议论文集(摘要), 1011.

[2] 李犇,毛继泽, 吕建福,郭庆勇. 冻融循环作用下混凝土孔结构的损伤机理研究. 2013年寒地混凝土交通会议论文集, 93-100.

[3] Ben Li, Jize Mao, Ming Cui, Peng Zhou and Daoguang Jia. A New Theoretical Damage Constitutive Model of Concrete subjected to Freeze-thaw Cycles, The 3rd HU-HEU WorkShop, 86-87. 

[4] 李犇,毛继泽,郭庆勇,吕建福,崔明. 基于孔结构分析氯离子对混凝土抗冻性影响的研究. 2014年土木工程博士论坛会议论文集, 77-80.

[5] 李犇,毛继泽,刘宗民,刘利明,马立夫. 冻融循环作用下混凝土微观损伤模型的研究. 2015年中国力学大会论文集, 1304-1311.

[6] 李犇,毛继泽,吕建福,郭庆勇. 冻融循环作用下混凝土介观损伤的研究. 2015年中国硅酸盐水泥会议论文集,76-83.

[7] Ben Li, Jize Mao and Qingyong Guo. Mesoscopic Damage Process of Concrete Subjected to Freeze-thaw Cycles, The 4th HU-HEU WorkShop, 96-97. 

[8] 石川玲奈,名和豊春,植田晃平,ベンーリ. Al MAS-NMR 及びXRD・Rietveld 法によるC3A-Ca(OH)2-Gypsum 系の水和反応解析. 第70回セメント技術大会论文集, 1110, 24-25.

[9] Ben Li, Jize Mao, Toyoharu Nawa, Limin Zhou and Tianyi Han. Research on the Influence of Ca/Si on Surface Charge and pH value of C-S-H gel. 水泥基材料多尺度性能表征:从流态到凝固态会议论文集,221. 

[10] 李犇, 毛继泽, 名和豊春, 周利民. 温度作用下碱骨料膨胀损伤的细观计算模型. 中国硅酸盐学会水泥分会第七届学术年会论文集(摘要), 146.

[11] Ben Li. Investigation of the rheological properties of cement paste with different superplasticizers based on CF and RDS methods. RheoCon 2019.

[12] Ben Li. Micro-mechanical modelling for the prediction of alkali-silica reaction (ASR) expansion: influence of curing temperature conditions. 14th International Conference on Recent Advances in Concrete Technology and Sustainability Issues.

[13] 刘洪波,李犇. 石墨尾矿混凝土力学性能的多尺度研究. 第二届东北三省力学博士论坛-2018.

[14] Ben Li. Mesoscopic freeze-thaw strain model of cement-based materials subjected to freeze-thaw cycles. The 1st Korea-China-Japan Joint Symposium 2018: Creating Value Through Interdisciplinary Collaboration for the 4th Industrial Revolution.

[15] 温度与碱度作用下碱骨料裂纹膨胀的细观机理. 2019-中国力学大会. 第一作者

BMV和泥粉含量对机制砂混凝土耐久性的影响. 第二届土木工程可持续性发展论坛. 第一作者

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