谭贤君

谭贤君 ，湖北石首人，研究员、博士生导师。中国科学院创新促来自进会优秀会员，国家优秀青年科学基金、湖北青年五四奖章获得者  。兼任民盟中央青年工作委员会委员，中国岩石力学与工程学会软岩工程与深部灾害控制分会理事，武汉岩土工程学会常务理事，《International Journal of Mining Science and Technology》中青年编委，《隧道与地下工程灾害防治》编委 

• 中文名称 谭贤君
• 出生地 石首市
• 职称 研究员

信息

　　姓 名: 谭贤君

　　性 别: 男

　　职 来自称: 研究员

　　通讯地址: 武汉市武昌区小洪山12号中国科学院武汉岩土力学研究所

简历

　　2005年毕业于石家庄铁道大学，获土木工程专业学士学位;2010年毕业于中国科学院武汉岩土力学研究所，获岩土工程专业博士学位(硕博连读)，并留所工作，历任助理研究员(2011-2012年)、副研究员(2013-2017年)和研究员(2018年-)(其间:2017.01--2017.12， 澳大利亚塔斯马尼亚大学访问学者) 。

　　长期从事寒区及软岩大变形隧/巷道灾变机理与防终婷顺厂亲她住质回控技术方面的研究，主持包括国家自然科学优秀青年基金等国家、省部级纵向项目7项、企业委托项目20余项。近年来，针对高原寒区隧道进洞困难、地下水渗漏严重和围岩冻新赵没烧可胀破坏现象普遍等难题，提出了机市考虑隧道内空气温度和湿度360百科对低温岩体温度影响的风流场湍流模型、寒区隧道温度壁面函数模型，为寒区隧酒技儿凯哥道的防寒保温层设计提供了理论依据和计算新方法;揭示了寒区隧道冻融条件下体积变形、温度、渗透压力和冻胀力相互影响规律，为复杂气候与地质条件下寒区隧道围岩冻融裂化及稳定性评估提供了理论支撑。此外，针对公路、铁路以及水利等领域隧/巷道工程建设全派中出现的挤压大变形控制技术难点，研发了包括高预应力注浆锚杆、微膨胀注浆加固材料、缓冲释能器、泡沫混凝土轻质充填材料及多种混凝土外加剂(包括:泡沫剂、高效液体速凝剂、润管剂和增粘剂等)在内的让乙统安波周静款严汉系列产品，形成以新型高预应力锚杆/索、注浆加固材料和释能支护结构为核心的超大埋深超长隧道大变形主动控制理论体系与技术 。

频剂害析烟倍几南便础批　　出版中、英文(章节)专著各1部。发表SCI/EI收录论文100余篇(其中SCI论文46篇，EI论文49篇)。申请/授权发明专利38项。获得国家科技进步二等奖1项(排名3)、中国岩石力学与工程学会技术发明奖一等奖1项(排名1)、湖北省科技进步一等奖2项(排名2、4)、其他省部级奖励4项 。

　　相关研究成果在西藏、青海、新疆等多个寒克投上告真德剧项皮引区及软岩大变形地下工程中得到应用，产生了显著的经济与社会被毫行环顾策利其继铁吸效益。

科研项目与成果

　　主要代表性论著:

　　[1] Yuan Jingqiang, Chen Weizhong, Tan Xianjun*, et al. An effective thermal conductivity model of rocks conside类海确伤杂布ring variable satura济女tion and pore structure: Theoretical modelling an主岁员d experimental v业道阻式群alidations. International Communications in Heat and Mass Transfer, 2021, 121, 105088.

　　[2] Yuan Jingqian只收华妈g, Chen Wei试前原鸡浓zhong, Tan Xia乐着创他神边例njun*, et al. Study on the permeability characteristics of foamed concrete using a pore-scale model from X-ray mic来自ro computed tomography (m含宁兰红只取icro-CT) image reconstruction and numerical simulation. Journal of Materials in Civil Engineering. DOI:10.1061/(ASCE)MT.360百科1943-5533. 0003735.

　　[染婷强程望利开足始只3] Tan, Xianjun益立营法阿此爱破, Chen, Weizhong抓速植看居余连散由九九, et al. Ex宁轻友逐感整题望探perimenta志l and theoretical studies on t氢示度流帝步收故he effects of height-to-diameter ratios on the failure forms and mechanical characteristics of foamed concrete. Journal of Ma振头非降石蒸terials in Civil Engineering. 2019, 31(1): 04018341.

　　[4] Wu Yuexiu., Ma Chishuai., Tan Xia烈集元及宣快专的汽雨njun*, Yang Diansen. *, 若顶财受所Tian, Hongming, Yang, Jianping. A New Evaluation Method for the Uniaxial Compressive Strength ahead 算of the Tunnel Face Based on the Driving Data and Specification Parameters of TBM. Shock and Vibration, 2019.

　　[5] Yang Diansen, Wang Wei., Chen Weizong*, Tan Xianjun *, et al. Revisiting the methods for gas permeability measurement in tight porous medium. Journal of Rock Mechanics and Geotechnical Engineering, 2019, 11(2), 263-276.

　　[6] Tian Hongming, Chen Weizong, Ma Chishuai, Yang Diansheng, Tan, Xianjun*. Energy Release Analysis of a Severe Rockburst in a Headrace Tunnel Crossing a Tectonic Stress Zone. Shock and Vibration, 2019.

　　[7] Yuan Jingqiang, Chen weizhong, Tan Xianjun*，et al. New Method to Evaluate Antiwashout Performance of Grout for Preventing Water-Inrush Disasters[J]. International Journal of Geomechanics, 2019, 20(2): 06019021.

　　[8] Tan Xianjun; Chen Weizhong; Liu Hongyuan, et al. A unified model for frost heave pressure in the rock with a penny-shaped fracture during freezing. Cold Regions Science and Technology, 2018, 153: 1-9., 2018, 153: 1-9.

　　[9] Tan Xianjun, Chen Weizhong, et al. Stress-Strain Characteristics of Foamed Concrete Subjected to Large Deformation under Uniaxial and Triaxial Compressive Loading. Journal of Materials in Civil Engineering, 2018, 30(6): 04018095.

　　[10] Wu Yuexiu, Song Wanpeng*, Zhao Wusheng*, Tan, Xianjun*. An Experimental Study on Dynamic Mechanical Properties of Fiber-Reinforced Concrete under Different Strain Rates. Applied Sciences, 2018, 8(10): 1904. (IF: 1.689).

　　[11] Tan Xianjun, Chen Weizhong Wang Jiuhong, et al. Influence of high temperature on the residual physical and mechanical properties of foamed concrete. Construction and Building Materials, 2017, 135: 203-211.

　　[12] Tan Xianjun, Chen Weizhong Liu Hongyuan, et al. A combined supporting system based on foamed concrete and U-shaped steel for underground coal mine roadways undergoing large deformations. Tunnelling and Underground Space Technology, 2017, 68: 196-210.

　　[13] Wu Yuexiu, Tan, Xianjun*, Liu, Quansheng, et al. Structural Foamed Concrete With Lightweight Aggregate and Polypropylene Fiber: Product Design Through Orthogonal Tests. Polymers & Polymer Composites, 2016, 24(2):173-178.

　　[14] Tan Xianjun; Chen Weizhong; Dai Yonghao; et al. Experimental research on the mixture mechanism of polluted and fresh air at the portal of small-space road tunnels. Tunnelling and Underground Space Technology, 2015,50: 118–128. (IF: 2.418).

　　[15] Tan Xianjun, Chen Weizhong, Hao Yingge; et al. Experimental Study of Ultralight (<300?kg/m3) Foamed Concrete. Advances in Materials Science and Engineering, 2014, doi:10.1155/2014/514759.

　　[16] Tan Xianjun; Chen Weizhong et al. Study on influence of airflow on the temperature of surrounding rock in a cold region tunnel and its application to the insulation layer design. Applied Thermal Engineering, 2014, 67: 320-334.

　　[17] Tan Xianjun; Chen Weizhong; Wu Guojun; et al. Degradation characteristics of foamed concrete with lightweight aggregate and polypropylene fiber under freeze-thaw cycles. Magazine of Concrete Research, 2013, 65(12): 720–730.

　　[18] Tan Xianjun; Chen Weizhong; et al. Numerical simulations of heat transfer with ice–water phase change occurring in porous media and application to a cold-region tunnel. Tunnelling and Underground Space Technology, 2013, 38: 170–179.

　　[19] Tan Xianjun; Chen Weizhong; Wu Guojun; et al. Study of air?ow in a cold-region tunnel using a standard k-g turbulence model and air-rock heat transfer characteristics: validation of the CFD results. Heat and Mass Transfer, 2013, 49:327–336.

　　[20] Tan Xianjun; Chen Weizhong; Yang Jianping; et al., Laboratory investigations on the mechanical properties degradation of granite under freeze-thaw cycles, Cold Regions Science and Technology, 2011, 68(3): 130-138.

　　[21] Tan Xianjun; Chen Weizhong; Tian Hongming; et al, Water flow and heat transport including ice/water phase change in porous media: Numerical simulation and application, Cold Regions Science and Technology, 2011, 68(12): 74-84.