譚賢君

譚賢君

譚賢君,湖北石首人,研究員、博士生導師。中國科學院創新促進會會員,國家優秀青年科學基金獲得者。兼任中國岩石力學與工程學會軟岩工程與深部災害控制分會理事、武漢岩土工程學會常務理事、《隧道與地下工程災害防治》編委。主要從事隧道及地下工程災變機理與防治方面的研究,包括:低溫相變岩體凍融損傷特性、凍脹力演化規律、凍融條件下隧道圍岩水-熱-力學回響特徵、寒區隧道施工與凍害控制、高性能防寒保溫材料研製等;此外,針對煤礦工程的特點,在煤礦軟岩巷道支護技術、防沖密閉技術及廢棄巷道充填技術等方面開展了大量研究,提出了軟岩大變形巷道“軟-硬”組合支護方案及配套施工方法,設計了新型泡沫混凝土防沖密閉牆,研製了新型泡沫混凝土輕質充填材料及多種混凝土外加劑(包括:泡沫劑、高效液體速凝劑、潤管劑和增粘劑等)。

主持包括國家自然科學優秀青年基金等國家、省部級縱向項目6項、企業委託項目若干項。出版中、英文(章節)專著各1部。發表SCI/EI收錄論文73篇(其中SCI論文31篇,EI論文42篇)。申請/授權發明專利36項。獲得包括國家科技進步二等獎(排名3)、中國岩石力學與工程學會技術發明獎一等獎(排名1)和湖北省科技進步一等獎(排名2、4)在內的獎勵8項。

基本介紹

  • 中文名:譚賢君
  • 出生地:石首市
  • 出生日期:1984年8月
  • 職業:科研
基本信息,簡歷,科研項目與成果,

基本信息

姓 名: 譚賢君
性 別: 男
職 稱: 研究員
通訊地址: 武漢市武昌區小洪山12號中國科學院武漢岩土力學研究所

簡歷

2005年畢業於石家莊鐵道大學,獲土木工程專業學士學位;2010年畢業於中國科學院武漢岩土力學研究所,獲岩土工程專業博士學位(碩博連讀),並留所工作,歷任助理研究員(2011-2012年)、副研究員(2013-2017年)和研究員(2018年-)(其間:2017.01--2017.12, 澳大利亞塔斯馬尼亞大學訪問學者)。

科研項目與成果

主要代表性論著:
  1. Tan, Xianjun, Chen, Weizhong, et al. Experimental and theoretical studies on the effects of height-to-diameter ratios on the failure forms and mechanical characteristics of foamed concrete. Journal of Materials in Civil Engineering, 2019, 31(1): 04018341.
  2. 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.
  3. 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.
  4. 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.
  5. 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.
  6. 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.
  7. 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.
  8. 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..
  9. 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.
  10. Tan Xianjun; Chen Weizhong; Wu Guojun; et al. Study of airflow in a cold-region tunnel using a standard turbulence model and air-rock heat transfer characteristics: validation of the CFD results. Heat and Mass Transfer, 2013, 49:327–336.
  11. 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.
  12. 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.
  13. 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.

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