职称:副教授、博士生导师
职务:交通学院院务助理(研究生工作)
88038威尼斯的联系方式:东南大学九龙湖校区交通学院903
email:cn
研究工作经历
2020.02至今
2018.03-2020.02
东南大学-交通学院副教授
香港城市大学博士后
教育背景
2015.03-2018.03
2009.09-2013.06
澳大利亚新南威尔士大学(unsw)-土木与环境工程学院博士
东南大学-交通学院岩土工程 本科
主要研究背景及方向
低碳固废材料再生利用
土动力学及材料微、细观力学性质研究
cptu原位测试
微观力学试验仪器的研发
诚挚欢迎心怀热情、勇于创新的优秀本科生和研究生加入88038威尼斯团队!
主持科研项目
纵向项目
国家自然科学基金青年项目,(24万),2021-2023年,主持;
江苏省自然科学基金青年基金,(20万),2021-2023年,主持;
河海大学教育部重点实验室开放基金,2021-2022年,主持;
横向项目
连淮高速公路改扩建cptu测试研究(86万),主持;
南京地铁九号线白云亭站基坑扰动分析(60万),主持;
部分参与科研项目
沪武高速公路太仓至常州段扩建工程废弃土固碳与固碳轻质土技术研发及应用研究;
海太过江通道cptu研究;
海上风机基础fft原位测试研究;
rgc - general research fund (2018-2020, 36 months) - “a laboratory study of soil creep and strain-rate effects of sands and aggregates at the micro-scale”, cityu, amount funded 442k hk$.
rgc - general research fund (2019-2021, 36 months) - “micromechanical investigation of bonded granular geo-materials”, cityu, amount funded 632k hk$.
rgc - theme-based research scheme (2016-2020, 60 months) - “understanding debris flow mechanisms and mitigating risks for a sustainable hong kong”, cityu, hkust, hku, amount funded 33,225k hk$.
代表性论文
h he, c zhang, j yang, m li, w fu, k senetakis, d zhang, s liu, (2023) characterization of recycled concrete aggregate (rca) particles for geotechnical engineering applications: particle strength and interparticle contact behavior, construction and building materials 407, 133532
m li, g cai, q wang, s liu, h he*, x liu, w shi, (2022) the state of the art of carbonation technology in geotechnical engineering: a comprehensive review, renewable and sustainable energy reviews 171, 112986.
h he, s li, k senetakis, mr coop, s liu, (2022) influence of anisotropic stress path and stress history on stiffness of calcareous sands from western australia and the philippines, journal of rock mechanics and geotechnical engineering, 14: 197-209.
h he, y he*, gj cai, yf wang, gz zhang (2022) influence of particle size and packing on the thermal conductivity of carbonate sand, granular matter
h he, w chen, zy yin, k senetakis, jh yin, 2021 a micromechanical-based study on the tribological and creep-relaxation behavior of sand-frp composite interfaces. composite structures 275,114423.
he, h., luo, l. and senetakis, k. (2020).effect of normal load and shearing velocity on the interface friction of organic shale–proppant simulant.tribology international, 144, 106119
he, h. and senetakis, k. (2020).a micromechanical study of shale rock-proppant composite interface. journal of petroleum science and engineering 184, 206542
he, h. and senetakis, k. (2019).an experimental study on the micromechanical behavior of pumice. acta geotechnica.14(6), 1883-1904
he, h., sandeep, c.s. and senetakis, k. (2019).the interface behavior of recycled concrete aggregates: a micromechanical grain-scale experimental study. construction and building materials.210, 627-638.
he, h., senetakis, k. and coop, m.r. (2019). an investigation of the effect of shearing velocity on the interparticle behavior of granular and composite materials with a new micromechanical dynamic testing apparatus. tribology international. 134, 252-263.