巴振寧

巴振寧

天津大學建工學院土木工程系

基本介紹

  • 中文名:巴振寧
  • 外文名:Zhenning Ba
  • 國籍中國
  • 畢業院校:天津大學
  • 職業:教師
  • 主要成就:2005-2008年度Arbinda Mukhopadhyay獎
主要研究方向,主要學歷,主要學術經歷,主要講授課程,主要學術兼職,主要成果獎勵,主要科研項目,論文論著,

主要研究方向

1. 地震動模擬理論及套用
2. 工程結構抗震方法及試驗
3. 高速列車(捷運)運行環境振動評估及減隔振
4. 城市市政管網運行安全風險評估
5. 土-結構地震動力相互作用

主要學歷

1999.09-2003.06鄭州工業大學土木工程系獲學士學位
2003.09-2005.06天津大學土木工程系獲碩士學位
2005.09-2008.06天津大學土木工程系獲博士學位

主要學術經歷

2017年7月-至今:天津大學建工學院-教授
2016年3月-2017年3月:美國南加州大學訪問學者
2011年7月-2017年6月:天津大學建工學院-副教授
2008年7-2011年7月:天津大學建工學院-講師

主要講授課程

本科生課程:
《地下結構抗震》-學位課
《工程抗震原理》-學位課
研究生課程:
《工程地震學》-學位課
《地震工程學》-選修課

主要學術兼職

濱海土木工程結構與安全教育部重點實驗室骨幹
中國地震局地震工程綜合模擬與城鄉抗震韌性重點實驗室骨幹
《工程抗震與加固改造》編委
全國地震專用計量測試技術委員會委員
中國地震學會地震工程專委會會員
中國地震學會強震動專委會委員
中國地震學會岩土工程防震減災委員會委員
中國地震學會基礎設施防震減災青年委員會委員
中國土木工程學會土力學及岩土工程分會交通岩土工程專業委員會委員
《Soil Dynamic and Earthquake Engineering》、《International Journal of Solids and Structures》,
《Engineering Analysis with Boundary Elements》、《土木工程學報》、《地震工程與工程振動》、《岩土工程學報》和《振動與衝擊》審稿專家

主要成果獎勵

天津大學“北洋青年學者計畫”獲得者(2019)
天津大學“北洋學者•青年骨幹教師計畫”獲得者(2015)
2019年度天津市工程專業學位優秀指導教師
2020年度天津大學優秀碩士論文指導教師
2005-2008年度Arbinda Mukhopadhyay獎,2010,獲獎人:梁建文,巴振寧,頒發單位:印度地震學會

主要科研項目

國家自然科學基金項目:基於整體物理模型的三維沉積盆地近斷層地震效應研究,2022-2025,項目負責人
國家自然科學基金項目:多地形地貌單元複合場地三維地震動模擬研究,2018-2021,項目負責人
國家自然科學基金項目:基於橫觀各向同性層狀介質模型的複雜場地地震效應研究,2016-2019,項目負責人
國家自然科學基金項目:層狀彈性及層狀飽和場地中沉積穀地對地震波的三維散射,2010-2012,項目負責人
國家重點研發項目子課題:城市市政管網運行安全風險評估技術(任務四),2016-2020,項目負責人
天津市自然科學基金面上項目:基於運動學震源模型的大尺度三維複雜場地地震動模擬研究,2020-2022,項目負責人
天津市自然科學基金面上項目:飽和軟土地區河道及古河道場地三維非線性地震效應研究,2016-2018,項目負責人
天津市套用基礎及前沿技術研究計畫青年基金項目:高速運行列車荷載作用下濱海飽和軟土地基動力回響研究,2012-2015,項目負責人
中國地震局地震工程與工程振動重點實驗室:飽和軟土場地中沉積河谷2.5維非線性地震效應研究,2019-2021,項目負責人
高速鐵路建造技術國家工程實驗室:考慮高山峽穀場地效應的近斷層鐵路橋樑地震動輸入研究,2021-2023,項目負責人
國家自然科學基金項目:三維層狀場地中捷運隧道群對沿線地震動的影響及其地震觀測研究,2010-2012,第一參與人
國家自然科學基金項目:流體飽和層狀場地中三維沉積盆地對地震動的影響,2011-2013,第一參與人
天津市套用基礎研究重點項目:天津市捷運地下結構抗震安全性評價關鍵技術研究,2012-2015,第一參與人
企業委託項目:軟土地區時速120km快速軌道交通盾構隧道長期運營結構安全問題,項目負責
企業委託項目:嘉峪關木構城樓現狀結構分析與狀態評估研究,項目負責人
企業委託項目:蒸壓砂加氣保溫板薄抹灰外牆外保溫系統低周反覆荷載試驗研究與分析,項目負責人
企業委託項目:大型風機基礎受力分析,項目負責人
企業委託項目:頤和園德和園大戲樓交通荷載振動監測研究,項目負責人
地方標準:《天津市快速軌道交通盾構隧道設計規程》(DBT 29-272-2019 ),主要參編人

論文論著

  • Ba ZN, Fu JS, Liu Y, Lee VW, Wang Y, Scattering of elastic spherical P, SV, and SH waves by three-dimensional hill in a layered half-space, Soil Dynamics and Earthquake Engineering, 2021, 147: 106545.
  • Ba ZN, Fu JS, Liu Y, Wang Y, Elastic wave field simulation of a three-dimensional sedimentary basin for incident spherical P, SV, and SH waves, Engineering Analysis with Boundary Elements. 2021, 128: 203-215.
  • Ba ZN, Fu JS, Liang JW, Liang K, Wang MS, Risk Assessment Method of Drainage Network Operation Based on Fuzzy Comprehensive Evaluation Combined with Analytic Network Process, Journal of Pipeline Systems in Engineering and Practice. 2021, 12(2): 04021009.
  • Ba ZN, Sang QZ, Liang JW, Wu MT, HVSR analysis of a layered saturated half-space using diffuse-field theory, Geophysical Journal International. 2021, 226(1): 270-286.
  • Ba ZN, Sang QZ, Wu MT, Liang JW, The revised direct stiffness matrix method for seismogram synthesis due to dislocations: from crustal to geotechnical scale, Geophysical Journal International. 2021, 227(1): 717-734.
  • Ba ZN, Wang Y, Fu JS, Liang JW, Corrosion Risk Assessment Model of Gas Pipeline Based on Improved AHP and Its Engineering Application, Arabian Journal for Science and Engineering. 2021: 1-19.
  • Ba ZN, Yu ZY, Wang Y, A multi-domain IBEM for the wave scattering and diffraction of P-and SV-waves by complex local sites, Waves in Random and Complex Media. 2021, 31(4): 769-793, DOI: 10.1080/17455030.2019.1626028.
  • Liang JW, Wu MT, Ba ZN, Lee VW, Surface motion of a layered transversely isotropic half-space with a 3D arbitrary-shaped alluvial valley under qP-, qSV- and SH-waves, Soil Dynamics and Earthquake Engineering. 2021, 140: 106388
  • Liang J, Zhang G, Ba Z, Liang JL, Development of a 3D fluid-saturated element for dynamic analysis of two-phase media in ABAQUS based on uU formed equations, Computers and Geotechnics. 2021, 139: 104377.
  • Liang JW, Wang YG, *Ba ZN, Zhong H, Scattering of plane waves by a 3D canyon in a transversely isotropic fluid-saturated layered half-space, Soil Dynamics and Earthquake Engineering. 2021, 151: 106997.
  • Liang JW, Wu MT, *Ba ZN, Sang QZ, A reflection-transmission matrix method for time-history response analysis of a layered TI saturated site under obliquely incident seismic waves, Applied Mathematical Modelling. 2021, 97: 206-225.
  • Liang JW, Xu AQ, *Ba ZN, Chen RD, Zhang W, Liu MG, Shaking table test and numerical simulation on ultra-large diameter shield tunnel passing through soft-hard stratum, Soil Dynamics and Earthquake Engineering, 2021, 147: 106790.
  • Liang JW, Wang YG, *Ba ZN, Zhong H, A special indirect boundary element method for seismic response of a 3D canyon in a saturated layered half-space subjected to obliquely incident plane waves, Engineering Analysis with Boundary Elements. 2021, 132: 182-201.
  • Liang JW, Wu MT, *Ba ZN, Simulating elastic wave propagation in 3-D layered transversely isotropic half-space using a special IBEM: Hill topography as an example, Engineering Analysis with Boundary Elements. 2021, 124: 64-81.
  • Fu J, Liang JW, Ba ZN, Model errors caused by rigid-foundation assumption in soil-structure interaction: a comparison of responses of a soil-structure-flexible foundation system and a rigid foundation system, Bulletin of Earthquake Engineering. 2021, 19(1): 77-99.
  • Liang JW, Wu MT, Ba ZN, Lee VW, Surface motion of a layered transversely isotropic half-space with a 3D arbitrary-shaped alluvial valley under qP-, qSV- and SH-waves, Soil Dynamics and Earthquake Engineering. 2021, 140: 106388
  • Ba ZN, Wang Y, Liang JW, Vincent W Lee, Wave scattering of plane P, SV, and SH waves by a 3D alluvial basin in a multilayered half-space, Bulletin of the Seismological Society of America, 2020, 110(2): 576-595
  • Ba ZN, Wu MT, Liang JW, 3D dynamic responses of a multi-layered transversely isotropic saturated half-space under concentrated forces and pore pressure, Applied Mathematical Modelling, 2020, 80: 859-878
  • Ba ZN, Fu ZY, Liu ZX, Sang QZ, A 2.5D IBEM to investigate the 3D seismic response of 2D topographies in a multi-layered transversely isotropic half-space, Engineering Analysis with Boundary Elements, 2020, 113:382-401
  • Ba ZN, Sang QZ, Vincent W Lee, 2.5D scattering of obliquely incident seismic waves due to a canyon cut in a multi-layered TI saturated half-space, Soil Dynamics and Earthquake Engineering. 2020, 129: 105957
  • Liang JW, Wu MT, Ba ZN, Vincent W Lee. Transfer matrix solution to free-field response of a multi-layered transversely isotropic poroelastic half-plane, Soil Dynamics and Earthquake Engineering. 2020, 134: 106168
  • Ba ZN, An DH, Seismic response of a 3-D canyon in a multilayered TI half-space modelled by an indirect boundary integral equation method, Geophysical Journal International, 2019, 217: 1949-1973
  • Ba ZN, Liang JW, Lee VW, Sang QZ, Free-field response of a transversely isotropic saturated half-space subjected to incident plane qP1-and qSV-waves, Soil Dynamics and Earthquake Engineering, 2019, 125: 105-126
  • Ba ZN, Gao X, Lee VW, Scattering of plane P-and SV-waves by periodic topography: Modeled by a PIBEM, Engineering Analysis with Boundary Elements, 2019, 106: 320-333
  • Ba ZN, Sang QZ, Liang JW, 3D seismic response of a 2D hill-valley staggered topography modeled by a 2.5D multi-domain IBEM, Earthquake Science, 2019, 32: 125-142
  • Ba ZN, Wang Y, Liang JW, Liu XN, 3D dynamic responses of a 2D hill in a layered half-space subjected to obliquely incident plane P-, SV-and SH-waves, Engineering Analysis with Boundary Elements, 2019, 125: 129-145
  • Ba ZN, Liang JW, Lee VW, Gao YN,A semi-analytical method for vibrations of a layered transversely isotropic ground-track system due to moving train loads, Soil Dynamics and Earthquake Engineering, 2019, 121: 25-39
  • Ba ZN, Yu ZY, Wang Y, A multi-domain IBEM for the wave scattering and diffraction of P-and SV-waves by complex local sites, Waves in Random and Complex Media, 2019, 6: 1-25
  • Liang JW, Wu MT, Ba ZN, Three-dimensional dynamic Green’s functions for transversely isotropic saturated half-space subjected to buried loads, Engineering Analysis with Boundary Elements, 2019, 129: 129-145
  • Liang JW, Jin W, Ba ZN, A study on a coupled model of a SDOF oscillator moving along an Euler beam on a viscoelastic half-space with variable speed, Engineering Analysis with Boundary Elements, 2019, 105: 221-230
  • Zhu J, Liang JW, Ba ZN, A 2.5 D equivalent linear model for longitudinal seismic analysis of tunnels in water-saturated poroelastic half-space, Computers and Geotechnics, 2019, 109: 166-188
  • Fu J, Liang JW, Ba ZN, Non-singular boundary element method on impedances of three-dimensional rectangular foundations, Engineering Analysis with Boundary Elements, 2019, 99: 100-110
  • Ba ZN, Liang JW, Lee VW, Kang ZQ. Dynamic impedance functions for a rigid strip footing resting on a multi-layered transversely isotropic saturated half-space, Engineering Analysis with Boundary Elements, 2018, 86: 31-44
  • Ba ZN, Liang JW, Lee VW, Hu LM. IBEM for Impedance Functions of an Embedded Strip Foundation in a Multi-layered Transversely Isotropic half-space, Journal of Earthquake engineering, 2018, 22(8):1415-1446
  • Ba ZN, Kang ZQ, Liang JW. In-plane dynamic Green’s functions for inclined and uniformly distributed loads in a multi-layered transversely isotropic half-space, Earthquake Engineering and Engineering Vibration, 2018, 17(2): 293-309
  • Ba ZN, Liang JW, Lee VW, Kang ZQ. Dynamic impedance functions for a rigid strip footing resting on a multi-layered transversely isotropic saturated half-space, Engineering Analysis with Boundary Elements, 2017, 80: 1-14 (SCI)
  • Ba ZN, Kang ZQ, Lee VW. Plane Strain Dynamic Responses of a Multi-layered Transversely Isotropic Saturated Half-space, international journal of engineering science, 2017, 119: 55-77
  • Ba ZN, Gao X, Soil-structure interaction in transversely isotropic layered media subjected to incident plane SH waves, Shock and Vibration, 2017, (2): 1-13 (SCI)
  • Ba ZN, Lee VW, Liang JW, Yan Y. Dynamic 2.5D Green’s functions for moving distributed loads acting on an inclined line in a multi-layered TI half-space, Soil Dynamics and Earthquake Engineering, 2017, 99: 172-188 (SCI)
  • Ba ZN, Liang JW. Fundamental solutions of a multi-layered transversely isotropic saturated half-space subjected to moving point forces and pore pressure, Engineering Analysis with Boundary Elements, 2017, 76: 40-58 (SCI)
  • Ba ZN, Lee VW, Liang JW, Yan Y., Scattering of plane qP- and qSV-waves by a canyon in a multi-layered transversely isotropic half-space, Soil Dynamics and Earthquake Engineering, 2017, 98: 120-140 (SCI)
  • Ba ZN, Kang ZQ, Liang JW., Dynamic Green’s functions for uniformly distributed loads acting on an inclined line in a multi-layered transversely isotropic half-space, earthquake engineering and engineering vibration, (SCI)
  • Ba ZN, Liang JW. Lee VW., 3D dynamic response of a multi-layered transversely isotropic half-space subjected to a moving point load along a horizontal straight line with constant speed, international journal of solids and structures, 2016, 100: 427-445 (SCI)
  • Ba ZN,Liang JW, Lee VW, Hu LM. IBEM for Impedance Functions of an Embedded Strip Foundation in a Multi-layered Transversely Isotropic half-space, Journal of Earthquake engineering (SCI)
  • Ba ZN, Liang JW, Zhang YJ. Diffraction of SH-waves by topographic features in a layered transversely isotropic half-space, Earthquake engineering and engineering vibration, 2017, 16: 11-22 (SCI)
  • Ba ZN, Liang JW. Dynamic response analysis of periodic alluvial valleys under incident plane SH-waves, Journal of Earthquake engineering, 2017, 21: 531-550(SCI)
  • Ba ZN, Liang JW, Lee VW. Wave propagation of buried spherical SH-, P1-, P2- and SV-waves in a layered poroelastic half-space, Soil Dynamics and Earthquake Engineering,2016,88: 237-255 (SCI)
  • Ba ZN, Yin X. Wave scattering of complex local site in a layered half-space by using a multidomain IBEM: incident plane SH waves, Geophys. J. Int., 2016, 205: 1382-1405 (SCI)
  • Ba ZN, Liang JW, Zhang YJ. Scattering and diffraction of plane SH-waves by periodically distributed canyons, Earthquake engineering and engineering vibration, 2016, 15(2): 325-339 (SCI)
  • Ba ZN, Wang JY, Liang JW, Reduction of train-induced vibrations by using a trench in a layered half-space,Journal of Vibroengineering,2016, 18: 1742-1764 (SCI)
  • Ba ZN, Liang JW. 3-D scattering of obliquely incident Rayleigh waves by a saturated alluvial valley in a layered half-space, Journal of Vibroengineering,2015, 17: 4057-4647 (SCI)
  • Ba ZN, Liang JW. 2.5D Scattering of Incident Plane SV Waves by a Canyon in Layered Half-Space,Earthquake engineering and engineering vibration, 2010, 9: 587-595(SCI)
  • Liang JW,Ba ZN,Lee V W. Diffraction of plane SV waves by a shallow circular-arc canyon in a saturated poroelastic half-space. Soil Dynamics and Earthquake Engineering, 2006,26:582-610 (SCI檢索)
  • 梁建文, 吳孟桃, 巴振寧, 頻率波數域內地殼層半空間剪下位錯源寬頻地震波傳播模擬, 岩石力學與工程學報, 2021: 1-16
  • 巴振寧, 劉博佳, 付繼賽, 排樁對柱面SH波散射問題研究:解析求解,吉林大學學報(地球科學版), 2021, 05: 1306-1315
  • 梁建文, 吳孟桃, 巴振寧, 流體飽和半空間二維地形三分量彈性波散射間接邊界元模擬,地球物理學報, 2021, 08: 2766-2779
  • 巴振寧, 趙靖軒, 吳孟桃, 梁建文, 塔拉, 基於逆斷層動力學模型的三維山體地震動譜元法模擬, 地震工程與工程振動, 2021, 03: 32-42
  • 巴振寧, 王智愷, 梁建文, 韓亞鑫, 王鳴鑠, 蘇州工業園區燃氣管網腐蝕風險評估, 油氣儲運, 2021, 07: 828-833+840
  • 張季, 譚燦星, 葉國濤, 巴振寧, 梁建文, SV波超臨界角斜入射時層狀地基地震動輸入在ABAQUS中的實現, 工程力學, 2021, 04: 200-210
  • 巴振寧, 高愈輝, 梁建文, 田巧煥, 天津軟土地區捷運運營沿線地面振動回響實測與建模分析, 噪聲與振動控制, 2021, 01: 160-167
  • 劉彬, 榮棉水, 孫偉家, 黃建平, 巴振寧, 非均勻介質全局廣義R/T遞推傳播矩陣法二維SH地震波模擬研究, 地球物理學報, 2021, 02: 525-536
  • 巴振寧, 匡田, 梁建文, 王智愷, 城市排水管網風險評估研究, 市政技術, 2021, 01: 90-93
  • 巴振寧, 劉世朋, 吳孟桃, 梁建文, 飽和土中周期排列管樁對平面SV波隔振的解析求解, 岩土力學, 2021, 03: 627-637
  • 巴振寧, 王瑩, 梁建文, 層狀半空間中多層沉積穀地時域地震回響分析, 振動與衝擊,2020,18:78-88
  • 巴振寧,焦鵬,梁建文,劉剛,高愈輝,高速列車引起站台振動的實測與分析,天津大學學報,2020,12:1211-1217
  • 巴振寧,焦鵬,張龍,劉冰松,張翔,嘉峪關光化樓殘損變形現狀及抗震性能分析,震災防禦技術,2020,2:293-304
  • 巴振寧,焦鵬,劉冰松,張翔,嘉峪關光化樓磚牆結構對抗震性能的影響,地震研究,2020,3:500-507
  • 巴振寧, 吳孟桃, 梁建文, 喻志穎. 高山-峽谷複合地形對入射平面P-SV 波的散射,套用數學與力學,2020, 41(7): 695-712
  • 巴振寧, 王瑩, 梁建文. 層狀半空間中多層沉積穀地時域地震回響分析, 振動與衝擊, 2020,39 (18): 78-88
  • 巴振寧, 高旭, 梁建文. 周期分布不規則體對彈性波的二維散射, 振動與衝擊, 2020, 39(14): 201-213
  • 巴振寧, 劉世朋, 吳孟桃, 梁建文. 周期分布群樁屏障對平面彈性波隔振效應的解析求解, 岩石力學與工程學報, 2020, 39(7): 1468-1482
  • 巴振寧, 劉世朋, 吳孟桃, 梁建文. 周期分布樁體對平面SH波隔振效應的解析求解, 岩土力學, 2020,41(9): 2861-2868
  • 巴振寧, 張家瑋, 梁建文, 吳孟桃. 地震波斜入射下層狀TI飽和場地地震反應分析,工程力學, 2020, 37(5): 166-177
  • 巴振寧, 安東輝, 梁建文, 高旭. 橫觀各向同性場地中埋置襯砌隧道對qP波的散射,地震工程學報, 2020, 42(4):948-954
  • 陸文斌, 巴振寧, 劉冰松, 王智愷. 濱海軟土中爆炸衝擊對盾構隧道的影響研究,防災減災工程學報, 2020, 40(1): 125-131
  • 李家飛, 梁建文, 巴振寧, 張久麒, 朱昱瞳, 張萍. 天津Z2線工程軟土場地震陷分析,防災減災工程學報, 2020, 40(1): 116-124
  • 張月輝, 巴振寧, 劉冰松, 王智愷. 濱海軟土中爆炸衝擊傳播規律的數值模擬,地下空間與工程學報, 2020, 15(S2): 959-965
  • 梁建文, 吳澤群, 辛鈺, 巴振寧. 斷層錯動下盾構隧道抗震措施研究,地震工程與工程振動, 2020, 40(1): 1-11
  • 梁建文, 朱昱曈, 趙華, 巴振寧. 盾構隧道抗震分析的整體強制反應位移法適用性研究,地震工程與工程振動, 2020, 40(3): 1-10
  • 張梁, 朱海濤, 梁建文, 巴振寧. 基於黏彈性邊界的P波斜入射波場分解方法精度比較,地震工程與工程振動, 2020, 40(2): 177-186
  • 巴振寧,周旭,梁建文,橫觀各向同性凸起地形對平面qP-qSV波的散射,岩土力學,2019,40(1):379-381
  • 巴振寧,吳孟桃,梁建文,坡體幾何參數與彈性模量對岩質斜坡地震動力回響的影響:IBEM,岩石力學與工程學報,2019,38(8):1578-1592
  • 梁建文,吳孟桃,巴振寧,軟硬互動橫向不均勻場地地震反應分析,岩土工程學報,2019, 41(9):1599-1608
  • 馬曉磊,巴振寧,高愈輝,田巧煥,濱海軟土地區捷運運營對沿線建築物振動影響分析,岩土工程學報,2019,49(S2):177-180
  • 劉一文,巴振寧,高愈輝,田巧煥,天津Z2線捷運運營對沿線地面振動的影響分析,岩土工程學報,2019,49(S1):193-196
  • 巴振寧, 趙靖軒, 梁建文. 溫度和基坑開挖耦合作用下埋地管道變形規律研究,市政技術, 2020, 2(38): 227-231
  • 張嵩, 巴振寧, 趙靖軒. 大直徑盾構隧道複合泡沫鋁保護層抗爆性能研究,市政技術, 2020, 3: 1-11
  • 梁建文, 高美嬌, 巴振寧. 寒潮期市政埋地供水管道應力分析,安全與環境學報, 2019, 2: 436-443
  • 巴振寧, 劉冰松, 焦鵬, 高商. 嘉峪關木構城樓模態分析研究,建築結構, 2019, 49(S2): 362-366
  • 巴振寧, 張恩瑋, 梁建文, 吳孟桃. 橫觀各向同性飽和沉積穀地對平面qP1波的散射,地震研究, 2019, 42(4): 474-482
  • 巴振寧,劉冰松,張龍,秦雷,高璽,環境振動下德和園大戲樓動力回響分析,建築結構,2018,48(S1):414-420
  • 巴振寧,王智愷,梁建文,溫度和不均勻沉降耦合作用下埋地管道力學性能,油氣儲運,2018,37(10):1097-1103
  • 巴振寧,韓亞鑫,梁建文,基於改進AHP和模糊綜合評價法的燃氣管道腐蝕風險評價,安全與環境學報,2018,18(6):2103-2109
  • 巴振寧,喻志穎,梁建文,山嶺隧洞在平面P-SV波入射下的地震動力回響,地震工程與工程振動,2018,38(5):50-58
  • 巴振寧,安東輝,梁建文,場地動力特性對襯砌隧道地震反應的影響,防災減災學報,2018,38(6):918-926
  • 巴振寧,喻志穎,梁建文,橫觀各向同性沉積穀地對平面qP和qSV波的放大作用,地球物理學進展,2018,33(6):2193-2203
  • 巴振寧,彭琳,梁建文,任意多個凸起地形對平面P波的散射,工程力學,2018,35(7):7-23
  • 巴振寧,陳昊維,梁建文,任意多個沉積穀地對平面SV波的散射,振動與衝擊,2018,37(5):98-107
  • 巴振寧、彭琳、梁建文、黃棣暘,任意多個凸起地形對平面P波的散射,工程力學,2018,35 (7):7-17
  • 巴振寧,黃棣暘,梁建文,層狀半空間中周期分布凸起地形對平面SH波的散射,地球物理學報,2017,60(3):1039-1052 (SCI)
  • 巴振寧,梁建文,張艷菊,三維層狀黏彈性半空間中球面SH、P和SV波源自由場,地球物理學報,2016,59(2):606-623(SCI)
  • 巴振寧,印梟,梁建文,沉積層序對谷地場地地震反應的影響-SH波入射,土木工程學報,2017,50(1):91-103
  • 巴振寧,胡黎明,梁建文,層狀橫觀各向同性地基上明置條形基礎平面內動力剛度係數,土木工程學報, 2017, 57 (9): 67-81
  • 巴振寧,梁建文,王靖雅,空溝對層狀飽和地基中列車移動荷載的隔振性能研究,岩土工程學報,2017,39(5):301-311
  • 巴振寧,梁建文,胡黎明,層狀橫觀各向同性地基中埋置剛性基礎的平面外動力剛度係數,岩土工程學報,2017,39(2):343-351
  • 巴振寧,梁建文,流體飽和半空間中埋置球面P1、P2和SV波源動力格林函式,工程力學,2016,5:34-43 (EI)
  • 巴振寧,王靖雅,梁建文,層狀地基中隔振溝對移動列車荷載隔振研究-2.5維IBEM方法,振動工程學報,2016,29(5):860-873
  • 巴振寧,嚴洋,梁建文,張艷菊,基於TI介質模型的凸起地形對平面SH波的放大作用,工程力學, 2017, 4(8): 10-24
  • 巴振寧,張艷菊,梁建文,基於TI介質模型的沉積穀地對平面SH波的放大效應,振動工程學報,2016,29(4):666-678
  • 巴振寧,馮領香,梁建文,無破碎帶斷層場地對SH波的散射,地震工程學報,2016,37(4):1-8
  • 巴振寧,金威,梁建文,移動簡諧荷載作用下層狀地基-軌道耦合系統動力回響分析,振動與衝擊,2016,25:65-74
  • 巴振寧,梁建文,Rayleigh波斜入射下層狀場地中凸起地形的三維回響分析,中國科學:技術科學,2015,45(1),874-888
  • 巴振寧,梁建文,金威,高速移動列車荷載作用下層狀飽和地基-軌道耦合系統的動力回響,工程力學,2015,32(11):189-200
  • 巴振寧,梁建文,層狀場地中凹陷地形Rayleigh波斜入射下三維地震回響分析,振動工程學報,2015,28(5):809-821 (EI)
  • 巴振寧,金威,梁建文,層狀飽和地基-路軌-列車耦合系統軌道不平順引起振動的分析,振動與衝擊,2015,34(15),88-97 (EI)
  • 巴振寧,梁建文,張艷菊,橫觀各向同性層狀半空間中凹陷地形對平面SH波的散射,地震工程與工程振動,2015,2(1):9-21
  • 巴振寧,馮領香,梁建文,層狀楔形空間平面SH波入射下波場分析,防災減災工程學報,2015,4:498-502
  • 巴振寧,梁建文,金威,高速移動列車荷載作用下成層地基-軌道耦合系統的動力回響,土木工程學報,2014,47(11):108-119 (EI)
  • 巴振寧,梁建文,梅雄一,層狀飽和半空間中沉積穀地對斜入射平面P1波的三維散射,工程力學,2013,30(9):47-62 (EI)
  • 巴振寧,梁建文,梅雄一,斜入射平面SH波在層狀飽和半空間中沉積穀地周圍的三維散射,岩土工程學報,2013,35(3):476-486 (EI)
  • Ba ZN, Liang JW, Mei XY. 3D scattering of obliquely incident plane SV waves by an alluvial valley embedded in a fluid saturated, poroelastic layered half-space, Earthquake Science, 2013, 26(2): 107-116
  • 巴振寧,梁建文,瑞雷波斜入射下層狀半空間中沉積穀地周圍的三維散射研究,地震學報,2014,36(4):571-583
  • 巴振寧,梁建文,層狀半空間中沉積穀地對入射SV波的放大作用-時域解答,自然災害學報,2011,20(3):131-138
  • 巴振寧,梁建文,層狀半空間中凹陷地形對斜入射平面P波的2.5維散射,自然災害學報,2010,19(3):52-61
  • 巴振寧,梁建文,層狀場地中二維沉積穀地對彈性波的三維散射,土木工程學報,2012,45(1):146-151(EI)
  • 巴振寧,梁建文,平面P1波斜入射下層狀飽和半空間中凹陷地形周圍的三維散射,土木工程學報,2013,46(S2):166-171 (EI)
  • 巴振寧,梁建文,平面SV波在層狀半空間中沉積穀地周圍的散射,地震工程與工程振動,2011,31(3):18-26
  • 巴振寧,梁建文,劉中憲,半空間中埋置球面剪下波源動力回響,地震工程與工程振動,2014,34(S1):1-6
  • 巴振寧,梁建文,任強強,3-D Scattering of Obliquely Incident Plane P Waves by Alluvial Valley Embedded in Layered Half-Space,Transactions of Tianjin University ,2012, 18(5): 357-365(EI)
  • 巴振寧,梁建文,2.5D Scattering of Incident Plane SH Waves by a Canyon in Layered Half-Space,Earthquake Science, 2010, 23(1): 25-33
  • 巴振寧,梁建文,Surface Motion of an Alluvial Valley in Layered Half-Space for Incident Plane P-Waves,Transactions of Tianjin University ,2011, 17(3): 157-165(EI)
  • 巴振寧,梁建文,平面P波在飽和半空間中凹陷地形周圍散射規律研究,天津大學學報,2010,43(6):523-529(EI)
  • 梁建文,巴振寧,Lee V W. Diffraction of plane SV waves by an underground circular cavity in a saturated poroelastic half-space. ISET Journal of Earthquake Technology, 2007, 44(2):341-375
  • 梁建文,巴振寧,Lee V W,平面P波在飽和半空間洞室周圍的散射(I):解析解,地震工程與工程振動,2007,27(1):1-6
  • 梁建文,巴振寧,Lee V W,平面P波在飽和半空間洞室周圍的散射(II):數值結果,地震工程與工程振動,2007,27(2):1-11
  • 梁建文,巴振寧,彈性層狀半空間中沉積穀地對入射平面SH波的放大作用,地震工程與工程振動,2007,27(3):1-9
  • 梁建文,巴振寧,三維層狀場地精確動力剛度矩陣及格林函式,地震工程與工程振動,2007,27(5):7-17
  • 梁建文,巴振寧,三維層狀場地中斜面均布荷載動力格林函式,地震工程與工程振動,2007,27(5):18-26
  • 梁建文,巴振寧,彈性層狀半空間中凸起地形對入射平面SH波的放大作用,地震工程與工程振動,2008,28(1):1-10
  • 梁建文,巴振寧,層狀半空間中洞室對平面SH波的放大作用,地震工程與工程振動,2012,32(2):14-24
  • 梁建文,任強強,巴振寧,層狀半空間中沉積穀地對斜入射平面SV波的三維散射,防災減災學報,2013,33(1):1-10
  • 梁建文,梅雄一,巴振寧,斜入射平面SH波在層狀半空間中沉積穀地周圍的三維散射,中國地震,2012,28(4):370-380
  • Liang J, Zhang J, Ba Z. Amplification of in-plane seismic ground motion by group cavities in layered half-space (I), Earthquake Science, 26(4): 275-285, 2012
  • Liang J, Zhang J, Ba Z. Amplification of in-plane seismic ground motion by group cavities in layered half-space (II): with saturated poroelastic soil layers, Earthquake Science, 26(4): 287-298, 2012
  • 梁建文, 韓冰, 巴振寧. 層狀飽和半空間中無限長洞室群對斜入射P1波的三維散射, 土木工程學報, 46(s1): 153-159, 2013
  • Liang J, Han B, Ba Z. 3D Diffraction of obliquely incident SH waves by twin infinitely long cylindrical cavities in layered poroelastic half-space, Earthquake Science, 26(6):395-406, 2013
  • Liang J, Mei X, Ba Z. Three-dimensional scattering of obliquely incident SH waves around saturated alluvial valleys. Earthquake Research in China, 27(4): 501-511, 2013

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