田健秋
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姓名 |
田健秋 |
出生年月 |
1993.08 |
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職稱 |
講師 |
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碩導/博導 |
碩士生導師 |
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學科專業 |
巖土工程 |
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研究方向 |
土的本構模型與數值模擬、顆粒材料宏-細-微觀力學特性 |
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所屬室所 |
巖土與地下工程教研室 |
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聯系方式 |
Email: [email protected] |
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個人簡介 |
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田健秋,男,重慶人,漢族,中共黨員,工學博士,講師。2012-2022年本碩博階段就讀于四川大學,2016年保送碩士研究生,2022年6月獲得四川大學土木工程專業工學博士學位。主要從事土的本構模型與數值模擬、顆粒材料宏-細-微觀力學特性等方面的教學和研究工作。主持國家自然科學基金青年科學基金項目、西南石油大學引進人才科研啟動項目,參與國家自然基金重大項目、國家重點研發計劃項目、企業委托科研項目。在Journal of Rock Mechanics and Geotechnical Engineering、Acta Geotechnica、Powder Technology、Computers and Geotechnics等權威期刊和會議上發表論文10余篇,出版專著1部。成都市“共建幸福美好·雛鷹計劃”青年科技人才,SCI期刊Bulletin of Engineering Geology and the Environment、European Journal of Environmental and Civil Engineering等審稿專家。
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研究領域 |
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一、飽和/非飽和土的本構模型與數值模擬 二、巖土材料應變局部化 三、顆粒材料宏-細-微觀力學特性 |
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教育背景及工作經歷 |
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教育背景: 2012.09 ~ 2016.06,四川大學,水利水電學院,水利水電工程,工學學士 2016.09 ~ 2019.06,四川大學,水利水電學院,巖土工程,工學碩士 2019.09 ~ 2022.06,四川大學,水利水電學院,巖土工程,工學博士 工作經歷: 2022.09 ~ 至今,西南石油大學,地球科學與技術學院,巖土與地下工程系,講師 |
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主要研究項目 |
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1. “非飽和昔格達土的水力-力學特性與宏-細觀本構模型”,國家自然科學基金青年科學基金項目,2025.01- 2027.12,項目負責; 2. 西南石油大學引進人才科研啟動項目,2022.09-2025.09,項目負責; 3. “不同土壤水力學介導下的山坡含根系巖土體水-熱-力多場耦合分析”,國家自然基金重大項目“地形急變帶生態-水文過程對巖土水力性質的影響及分異規律“課題的子題,2018.01-2022.12,項目參與; 4. “震后特大泥石流形成機制與起動判識模型”,國家重點研發計劃“強震山區特大地質災害致災機理與長期效應研究”項目課題的子題,2018.01-2021.12,項目參與; 5. “西藏昌都市拉諾瑪鉛鋅礦尾礦庫工程抗震動力分析”,企業委托科研項目,2019.10-2022.12,項目參與。 |
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代表性成果 |
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一、代表性論文: 1. Tian J, Liu E, Guo Y. A thermodynamics-based three-scale constitutive model for partially saturated granular material-s. Journal of Rock Mechanics and Geotechnical Engineering, 2024, 16(5): 1813-1831. 2. Tian J, Lai Y, Liu E, He C. A thermodynamics-based micro-macro elastoplastic micropolar continuum model for granu-lar materials. Computers and Geotechnics, 2023, 162: 105653. 3. Tian J, Lai Y, Liu E, Yang Y. A micromechanics-based elasto-plastic model for granular media combined with Cosserat continuum theory. Acta Geotechnica, 2022, 17(6): 2259-2285. 4. Tian J, Liu E, He C. Shear band analysis of granular materials considering effects of particle shape. Acta Mechanica, 2020, 231(11): 4445-4461. 5. Tian J, Liu E. Influences of particle shape on evolutions of force-chain and micro-macro parameters at critical state for granular materials. Powder Technology, 2019, 354: 906-921. 6. Tian J, Liu E. Effect of particle shape on micro- and mesostructure evolution of granular assemblies under biaxial load-ing conditions. Comptes Rendus Mecanique, 2018, 346(12): 1233-1252. 7. Tian J, Liu E, Jiang L, Jiang X, Sun Y, Xu R. Influence of particle shape on the microstructure evolution and the mech-anical properties of granular materials. Comptes Rendus Mecanique, 2018, 346(6): 460-476. 8. Tian J, Huang R, Liu E. Influence of particle shape on the mechanical property of granular materials. GeoShanghai Int-ernational Conference, 2018: 63-73. 9. Xu R, Liu E, Jiang X, Tian J, Sun Y. Analysis on evolution of mesostructure of cohesionless soil ground upon loading. Powder Technology, 2020, 368:1-17. 10. Sun Y, Liu E, Jiang L, Tian J, Jiang X, Xu R. Dynamic mechanical properties and mesostructure evolution of granular materials subjected to cyclic loading. Granular Matter, 2020, 22(3): 70. 11. Jiang X, Liu E, Jiang L, Tian J, Sun Y. Evolution of meso-structures and mechanical properties of granular materials under triaxial compression state from complex network perspective. Granular Matter, 2018, 20(3): 54. 12. Jiang L, Liu E, Tian J, Jiang X. Effects of Inter-Particle Frictional Coefficients on Evolution of Contact Networks in Landslide Process. Engineering, 2017, 9(11): 917-936. 13. Jiang L, Yin X, Tian J, Liu E. Mechanical properties of Xigeda soil with different contents of EPS under a consolidated undrained triaxial compression test. Proceedings of the 3rd Annual Congress on Advanced Engineering and Technology, 2016, 55-61. 14. Tang Y, Liu Y, Tian J, He M, Liu E. Study on mechanical and chemical properties of tailing soils extracted from one dam site in a cold plateau region. Proceedings of the 3rd Annual Congress on Advanced Engineering and Technology, 2016, 63-70. 二、專著: 劉恩龍,郅彬,曹鵬,田健秋,等. 《顆粒流算例分析》. 四川大學出版社,2017.
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研究團隊 |
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巖土工程災害預警與防治研究團隊 寒區工程與多孔介質材料研究團隊
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