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(中英文各20篇):
[1]Wang K,Zhang Z,Leo C J,et al.Dynamic torsional response of an end bearing pile in saturated poroelastic medium[J].Computers and Geotechnics,2008,35(3):450-458.(SCI)
[2]Yang D Y,Wang K H,Zhang Z Q,et al.Vertical dynamic response of pile in a radially heterogeneous soil layer[J].International Journal for Numerical and Analytical Methods in Geomechanics,2009,33(8):1039-1054.(SCI、通讯作者)
[3]Wang K,Zhang Z,Leo C J,et al.Dynamic torsional response of an end bearing pile in transversely isotropic saturated soil[J].Journal of Sound and Vibration,2009,327(3-5):440-453.(SCI)
[4]Wang K,Wu W,Zhang Z,et al.Vertical dynamic response of an inhomogeneous viscoelastic pile[J].Computers and Geotechnics,2010,37(4):536-544.(SCI)
[5]Kui-hua Wang,Shao-jun Ma,Wen-bing Wu.Pseudo-dynamic analysis of overturning stability of retaining wall[J].Journal of Central South University of Technology,2011,18(6):2085-2090.(SCI)
[6]Wang K H,Yang D Y,Zhang Z Q,et al.A new approach for vertical impedance in radially inhomogeneous soil layer[J].International Journal for Numerical and Analytical Methods in Geomechanics,2012,36(6):697-707.(SCI)
[7]Wu W B,Wang K H,Zhang Z Q,et al.Soil‐pile interaction in the pile vertical vibration considering true three‐dimensional wave effect of soil[J].International Journal for Numerical and Analytical Methods in Geomechanics,2013,37(17):2860-2876.(SCI、通讯作者)
[8]LüS,Wang K,Wu W,et al.Longitudinal vibration of a pile embedded in layered soil considering the transverse inertia effect of pile[J].Computers and Geotechnics,2014,62:90-99.(SCI、通讯作者)
[9]Li Z,Wang K,Wu W,et al.Vertical vibration of a large diameter pile embedded in inhomogeneous soil based on the Rayleigh-Love rod theory[J].Journal of Zhejiang University-SCIENCE A,2016,17(12):974-988.(SCI、通讯作者)
[10]Gao L,Wang K,Xiao S,et al.An analytical solution for excited pile vibrations with variable section impedance in the time domain and its engineering application[J].Computers and Geotechnics,2016,73:170-178.(SCI、通讯作者)
[11]Li Z,Wang K,Wu W,et al.Vertical vibration of a large-diameter pipe pile considering the radial inhomogeneity of soil caused by the construction disturbance effect[J].Computers and Geotechnics,2017,85:90-102.(SCI、通讯作者)
[12]Gao L,Wang K,Wu J,et al.Analytical solution for the dynamic response of a pile with a variable-section interface in low-strain integrity testing[J].Journal of Sound and Vibration,2017,395:328-340.(SCI、通讯作者)
[13]Gao L,Wang K,Xiao S,et al.Dynamic response of a pile considering the interaction of pile variable cross section with the surrounding layered soil[J].International Journal for Numerical and Analytical Methods in Geomechanics,2017,41(9):1196-1214.(SCI、通讯作者)
[14]Gao L,Wang K,Xiao S,et al.Vertical impedance of tapered piles considering the vertical reaction of surrounding soil and construction disturbance[J].Marine Georesources&Geotechnology,2017,35(8):1068-1076.(SCI、通讯作者)
[15]Xiao S,Wang K,Gao L,et al.Dynamic characteristics of a large‐diameter pile in saturated soil and its application[J].International Journal for Numerical and Analytical Methods in Geomechanics,2018,42(11):1255-1269.(SCI、通讯作者)
[16]Wu J,Wang K,El Naggar M H.Dynamic response of a defect pile in layered soil subjected to longitudinal vibration in parallel seismic integrity testing[J].Soil Dynamics and Earthquake Engineering,2019,121:168-178.(SCI、通讯作者)
[17]Wu J,Wang K,El Naggar M H.Dynamic soil reactions around pile-fictitious soil pile coupled model and its application in parallel seismic method[J].Computers and Geotechnics,2019,110:44-56(SCI、通讯作者)。
[18]Wu,JT,Wang,KH,Gao,L,Xiao,S,Study on longitudinal vibration of a pile with variable sectional acoustic impedance by integral transformation,ACTA GEOTECHNICA,2019.12,VL 14(6),1857-1870.(SCI、通讯作者)
[19]Wu,JT,El Naggar,MH,Wang,KH,Wu,WB,Wu,Lateral vibration characteristics of an extended pile shaft under low-strain integrity test,SOIL DYNAMICS AND EARTHQUAKE ENGINEERING,2019,VL 126.(SCI、通讯作者)
[20]Wu,JT,Wang,KH,El Naggar,MH,Half-space dynamic soil model excited by known longitudinal vibration of a defective pile,COMPUTERS AND GEOTECHNICS,2019,VL 112,403-412.(SCI、通讯作者)
1.王奎华,谢康和,曾国熙.1997.9有限长桩受迫振动问题解析解及应用,岩土工程学,Vol.19(6),P27~35.
2.王奎华,谢康和,曾国熙.1998.12变截面阻抗桩受迫振动问题解析解及应用,土木工程学报,Vol.31(6),P56~67.(本文获1997-1998年度浙江省自然科学优秀论文一等奖,省土木建筑学会唯一一篇)
3.王奎华,谢康和,曾国熙.1998.3双面半透水边界一维粘弹性固结理论,岩土工程学报,Vol.20(2),P34~36.
4.王奎华.1999.9基桩波动方程达朗贝尔解法精度研究,岩土工程学报,Vol.21(5),P617~620.
5.王奎华.1999.12考虑桩体粘性的变阻抗桩受迫振动问题的解析解,振动工程学报,Vol.12(4),P513~520.
6.王奎华,谢新宇.2001.4连续弹性体模型下桩的动刚度表达式及与静刚度关系,建筑结构学报,Vol.22(2),P88~91.
7.王奎华.2001.7变截面阻抗桩纵向振动问题积分变换解,力学学报,Vol.33(4),P479~491.
8.王奎华.2002.9多元件粘弹性土模型条件下桩的振动特性与时域响应,声学学报,Vol.27(5),P455~464.
9.王奎华,阙仁波.2003.4,改进的库尔曼图解法及其在土压力计算中的应用,岩土工程学报,Vol.25(2),P167~169.
10.王奎华,应宏伟.2003.9广义Voigt土模型条件下桩的纵向振动响应与应用,固体力学学报,Vol.24(3),P293~303.
11.王奎华,阙仁波,夏建中.2005.4.考虑土体真三维波动效应时桩的振动理论及对近似理论的校核[J].岩石力学与工程学报,2005,(8).(EI收录)
12.王奎华,杨冬英,张智卿.2008,基于复刚度传递多圈层平面应变模型的桩动力响应研究,岩石力学与工程学报,Vol.27(4),P825-831。(EI收录)。
13.王奎华,马少俊,吴文兵,2011/9,均布荷载作用下的无黏性土地震被动土压力计算.岩石力学与工程学报,30(Supp.2),EI.
14.王奎华,吴文兵,马少俊,许进军,桩底沉渣对桩的纵向振动特性影响研究及应用.岩土工程学报,33(8),2011/8,EI.
15.王奎华,王宁,刘凯,吴文兵,三维轴对称条件下基于虚土桩法的单桩纵向振动分析.岩土工程学报,2012/05,EI。
16.杨冬英,王奎华,丁海平.2013,双向非均质土中基于连续介质模型的桩动力响应特性分析[J].土木工程学报,46(03):119-126.EI.
17.吕述晖,王奎华,张鹏.2015,梁-桩-土竖向耦合振动特性分析[J].力学学报,47(01):169-173.
18.王奎华,高柳,吴君涛,肖偲.2017,三维波动土中考虑桩身变截面与桩周土相互作用的大直径桩的动力特性[J].岩石力学与工程学报,36(02):496-503.
19.王奎华,肖偲,吴君涛,高柳.2018,饱和土中大直径缺陷桩振动特性研究[J].岩石力学与工程学报,37(07):1722-1730.
20.王奎华,郭海超,高柳,肖偲.2018,三维波动土中带承台单桩的纵向振动特性研究[J].岩石力学与工程学报,37(02):497-505.
主要学术论文:
1.Wang,T;Wang,KH;Xie,KH.An analytical solution to longitudinal vibration of a pile of arbitrary segments with variable modulus.ACTA MECHANICA SOLIDA SINICA.2001.(SCI)
2.Wang K,Zhang Z,Leo C J,et al.Dynamic torsional response of an end bearing pile in saturated poroelastic medium[J].Computers and Geotechnics,2008,35(3):450-458.(SCI)
3.Yang D Y,Wang K H,Zhang Z Q,et al.Vertical dynamic response of pile in a radially heterogeneous soil layer[J].International Journal for Numerical and Analytical Methods in Geomechanics,2009,33(8):1039-1054.(SCI)
4.Wang K,Zhang Z,Leo C J,et al.Dynamic torsional response of an end bearing pile in transversely isotropic saturated soil[J].Journal of Sound and Vibration,2009,327(3-5):440-453.(SCI)
5.Wang K,Wu W,Zhang Z,et al.Vertical dynamic response of an inhomogeneous viscoelastic pile[J].Computers and Geotechnics,2010,37(4):536-544.(SCI)
6.Kui-hua Wang,Shao-jun Ma,Wen-bing Wu.Pseudo-dynamic analysis of overturning stability of retaining wall[J].Journal of Central South University of Technology,2011,18(6):2085-2090.(SCI)
7.Wu W,Wang K,Ma S,et al.Longitudinal dynamic response of pile in layered soil based on virtual soil pile model[J].Journal of Central South University,2012,19(7):1999-2007.(SCI)
8.Wu W,Wang K,Zhang Z,et al.A new approach for time effect analysis of settlement for single pile based on virtual soil-pile model[J].Journal of Central South University,2012,19(9):2656-2662.(SCI)
9.Wang K H,Yang D Y,Zhang Z Q,et al.A new approach for vertical impedance in radially inhomogeneous soil layer[J].International Journal for Numerical and Analytical Methods in Geomechanics,2012,36(6):697-707.(SCI)
10.Ma S,Wang K,Wu W.Pseudo-dynamic active earth pressure behind retaining wall for cohesive soil backfill[J].Journal of Central South University,2012,19(11):3298-3304.(SCI)
11.Wu W B,Wang K H,Zhang Z Q,et al.Soil‐pile interaction in the pile vertical vibration considering true three‐dimensional wave effect of soil[J].International Journal for Numerical and Analytical Methods in Geomechanics,2013,37(17):2860-2876.(SCI)
12.Wang N,Wang K,Wu W.Analytical model of vertical vibrations in piles for different tip boundary conditions:parametric study and applications[J].Journal of Zhejiang University SCIENCE A,2013,14(2):79-93.(SCI)
13.Zhou J,Wang K,Gong X,et al.Bearing capacity and load transfer mechanism of a static drill rooted nodular pile in soft soil areas[J].Journal of Zhejiang University SCIENCE A,2013,14(10):705-719.(SCI)
14.LüS,Wang K,Wu W,et al.Longitudinal vibration of a pile embedded in layered soil considering the transverse inertia effect of pile[J].Computers and Geotechnics,2014,62:90-99.(SCI)
15.Zheng Q,Kui-Hua W.The Impact Analysis of Pile and Soil Parameters on Compressive Capacity of Long Pile[C]//2014 International Conference on Mechanics and Civil Engineering(icmce-14).Atlantis Press,2014.
16.Zhang Z,Zhou J,Wang K,et al.Dynamic response of an inhomogeneous viscoelastic pile in a multilayered soil to transient axial loading[J].Mathematical Problems in Engineering,2015,2015.(SCI)
17.LüS,Wang K,Wu W,et al.Longitudinal vibration of pile in layered soil based on Raleigh-Love rod theory and fictitious soil-pile model[J].Journal of Central South University,2015,22(5):1909-1918.(SCI)
18.Li Z,Wang K,Lv S,et al.A new approach for time effect analysis in the settlement of single pile in nonlinear viscoelastic soil deposits[J].Journal of Zhejiang University-SCIENCE A,2015,16(8):630-643.(SCI)
19.LüS,Wang K H,Zhang P,et al.Nonlinear analysis of pile load—settlement behavior in layered soil[J].Journal of Central South University,2015,22(9):3615-3623.(SCI)
20.Zhou J,Gong X,Wang K,et al.A field study on the behavior of static drill rooted nodular piles with caps under compression[J].Journal of Zhejiang University-SCIENCE A,2015,16(12):951-963.(SCI)
21.Gao L,Wang K,Xiao S,et al.An analytical solution for excited pile vibrations with variable section impedance in the time domain and its engineering application[J].Computers and Geotechnics,2016,73:170-178.(SCI)
22.Li Z,Wang K,Wu W,et al.Vertical vibration of a large diameter pile embedded in inhomogeneous soil based on the Rayleigh-Love rod theory[J].Journal of Zhejiang University-SCIENCE A,2016,17(12):974-988.(SCI)
23.LüS H,Wang K H,Wu W B.Dynamic behavior of beam–pile structure under vertical transient excitation[J].Marine Georesources&Geotechnology,2016,34(6):550-558.(SCI)
24.Zhou J,Gong X,Wang K H,et al.A model test on the behavior of a static drill rooted nodular pile under compression[J].Marine Georesources&Geotechnology,2016,34(3):293-301.(SCI)
25.Li Z,Wang K,Wu W,et al.Vertical vibration of a large-diameter pipe pile considering the radial inhomogeneity of soil caused by the construction disturbance effect[J].Computers and Geotechnics,2017,85:90-102.(SCI)
26.Gao L,Wang K,Wu J,et al.Analytical solution for the dynamic response of a pile with a variable-section interface in low-strain integrity testing[J].Journal of Sound and Vibration,2017,395:328-340.(SCI)
27.Gao L,Wang K,Xiao S,et al.Dynamic response of a pile considering the interaction of pile variable cross section with the surrounding layered soil[J].International Journal for Numerical and Analytical Methods in Geomechanics,2017,41(9):1196-1214.(SCI)
28.Gao L,Wang K,Xiao S,et al.Vertical impedance of tapered piles considering the vertical reaction of surrounding soil and construction disturbance[J].Marine Georesources&Geotechnology,2017,35(8):1068-1076.(SCI)
29.Zhou J,Gong X,Wang K,et al.A simplified nonlinear calculation method to describe the settlement of pre-bored grouting planted nodular piles[J].Journal of Zhejiang University-SCIENCE A,2017,18(11):895-909.(SCI)
30.Zhou J J,Gong X N,Wang K H,et al.Effect of cemented soil properties on the behavior of pre-bored grouted planted nodular piles under compression[J].Journal of Zhejiang University-SCIENCE A,2018,19(7):534-543.(SCI)
31.Xiao S,Wang K,Gao L,et al.Dynamic characteristics of a large‐diameter pile in saturated soil and its application[J].International Journal for Numerical and Analytical Methods in Geomechanics,2018,42(11):1255-1269.(SCI)
32.Xiao S,Hu A,Wang K,et al.Dynamic response of a large-diameter pile with variable section in layered saturated soil considering construction disturbance effect[J].Marine Georesources&Geotechnology,2018:1-10.(SCI)
33.Li Z,Gao Y,Wang K.Torsional vibration of an end bearing pile embedded in radially inhomogeneous saturated soil[J].Computers and Geotechnics,2019,108:117-130.(SCI)
34.Wu J,Wang K,El Naggar M H.Dynamic response of a defect pile in layered soil subjected to longitudinal vibration in parallel seismic integrity testing[J].Soil Dynamics and Earthquake Engineering,2019,121:168-178.(SCI)
35.Wu J,Wang K,El Naggar M H.Dynamic soil reactions around pile-fictitious soil pile coupled model and its application in parallel seismic method[J].Computers and Geotechnics,2019,110:44-56(SCI)
36.Wu,JT,Wang,KH,Gao,L,Xiao,S,Study on longitudinal vibration of a pile with variable sectional acoustic impedance by integral transformation,ACTA GEOTECHNICA,2019.12,VL 14(6),1857-1870.(SCI)
37.Wu,JT,El Naggar,MH,Wang,KH,Wu,WB,Wu,Lateral vibration characteristics of an extended pile shaft under low-strain integrity test,SOIL DYNAMICS AND EARTHQUAKE ENGINEERING,2019,VL 126.(SCI)
38.Wang,ZJ,Fang,PF,Wang,KH,Zhang,RH,Li,FY Interactions between energy piles caused by temperature,GEOTECHNICAL RESEARCH,2019,VL 6(3),218-226.(SCI)
39.Wu,JT,Wang,KH,El Naggar,MH,Half-space dynamic soil model excited by known longitudinal vibration of a defective pile,COMPUTERS AND GEOTECHNICS,2019,VL 112,403-412.(SCI)
40.Xiao,S,Hu,AF,Wang,KH,Wu,JT,Gao,L Dynamic response of a large-diameter pile with variable section in layered saturated soil considering construction disturbance effect,MARINE GEORESOURCES&GEOTECHNOLOGY,2019,VL 37(3),339-348.(SCI)
41.王奎华,谢康和,曾国熙,1997.9有限长桩受迫振动问题解析解及应用,岩土工程学,Vol.19(6),P27~35.
42.王奎华,谢康和,曾国熙.1998.12变截面阻抗桩受迫振动问题解析解及应用,土木工程学报,Vol.31(6),P56~67.(本文获1997-1998年度浙江省自然科学优秀论文一等奖,省土木建筑学
43.王奎华.1998.12桩的材料阻尼对动测曲线的影响,岩土力学,Vol.19(4),P57~62.(EI收录)
44.王奎华,谢康和,曾国熙.1998.3双面半透水边界一维粘弹性固结理论,岩土工程学报,Vol.20(2),P34~36.
45.王奎华,李冰河,谢康和等.1998.9弹性支承桩受迫振动问题广义函数解及应用,浙江大学学报,Vol.32(5),P545~551.
46.谢新宇,王奎华,陈春雷等.1998.7温州城南立交桥引桥软基加固工程实例分析,中国公路学报,Vol.l.11(3),P62~69.
47.王奎华,应宏伟,谢康和等.1998.12非完整桩桩受迫振动问题解析解及应用,固体力学学报,Vol.19(增),P159~163.
48.王奎华.1999.9基桩波动方程达朗贝尔解法精度研究,岩土工程学报,Vol.21(5),P617~620.
49.王奎华.1999.12考虑桩体粘性的变阻抗桩受迫振动问题的解析解,振动工程学报,Vol.12(4),P513~520.
50.李冰河,王奎华,谢康和等.2000.7软粘土非线性一维固结有限差分法分析,浙江大学学报(工学版),Vol.34(4),P376~381.
51.王腾,王奎华,谢康和.2000.11任意段变截面桩纵向振动的半解析解及应用,岩土工程学报,Vol.22(6),P654~658.
52.应宏伟,王奎华,谢康和等.2001.1杭州解百商业城半逆作法深基坑支护设计与监测,岩土工程学报,Vol.23(1),P79~83.
53.王奎华,谢新宇.2001.4连续弹性体模型下桩的动刚度表达式及与静刚度关系,建筑结构学报,Vol.22(2),P88~91.
54.王奎华.2001.7变截面阻抗桩纵向振动问题积分变换解,力学学报,Vol.33(4),P479~491.
55.王奎华.2001.7关于“颗粒分析中密度计法土粒径计算公式研究”的讨论,岩土工程学报,Vol.23(4),P518~519.
56.王腾,王奎华,谢康和.2002.1任意段变模量桩纵向振动的解析解,固体力学学报,Vol.23(1),P40~46.
57.王腾,王奎华,谢康和.2002.2成层土中桩的纵向振动理论研究与应用,土木工程学报,Vol.35(1),P83~87.
58.王腾,王奎华,谢康和.2002.4变截面桩速度导纳的解析解,岩石力学与工程学报,Vol.21(4),P573~576.
59.王奎华.2002.9多元件粘弹性土模型条件下桩的振动特性与时域响应,声学学报,Vol.27(5),P455~464.
60.王奎华.2002.9成层广义Voigt地基中粘弹性桩纵向振动分析与应用,浙江大学学报(工学版),Vol.36(5),P565~571.(EI收录)
61.胡昌斌,王奎华,谢康和.2003.4考虑桩土耦合作用时弹性支承桩纵向振动特性分析及应用,工程力学,Vol.20(2),P146~154.
62.王奎华,阙仁波.2003.4,改进的库尔曼图解法及其在土压力计算中的应用,岩土工程学报,Vol.25(2),P167~169.
63.贺武斌,梁仁旺,王奎华.2003.5关于半刚性桩复合地基若干问题的研究,水利学报,2003(5),P92~97.
64.王奎华,应宏伟.2003.9广义Voigt土模型条件下桩的纵向振动响应与应用,固体力学学报,Vol.24(3),P293~303.
65.胡昌斌,王奎华,谢康和.2003.9基于平面应变假定基桩振动理论适用性研究,岩土工程学报,Vol.25(5),P595~601.
66.李强,王奎华,谢康和.2003.10冻土声学测试中的异常现象分析,煤炭学报,Vol.28(5),P517~521.
67.胡昌斌,王奎华,谢康和.2004.1桩与粘性阻尼土耦合纵向振动时桩顶时域响应研究,振动工程学报,Vol.17(1),P72~77.(EI收录)
68.李强,王奎华,谢康和.2004.6人工冻土流变模型的识别和参数反演,岩石力学与工程学报,Vol.23(11),P1895~1899.(EI收录)
69.孙昱,王奎华,谢康和.2004.7标准线性固体模型条件下桩的动力响应分析与应用,计算力学学报,Vol.21(3),P330~337.(EI收录)
70.李强,王奎华,谢康和.2004.7饱和土中端承桩纵向振动特性研究,力学学报,Vol.36(4),P435~442.
71.靳建明,王奎华等.2004.7软土密实度瞬态锤击测试信号的小波多分辨率分析研究,岩石力学与工程学报,Vol.25(13).(EI收录)
72.李强,王奎华,谢康和.2004.9饱和土中桩振动引起的土阻抗因子分析研究,岩土工程学报,Vol.26(5).
73.王奎华,阙仁波,夏建中.2005.4.考虑土体真三维波动效应时桩的振动理论及对近似理论的校核[J].岩石力学与工程学报,2005,(8).(EI收录)
74.周铁桥,王奎华,谢康和,郑宇杉.2005.6.轴对称径向非均质土中桩的纵向振动特性分析[J].岩土工程学报,2005,(6).
75.阙仁波,王奎华.2005.6.考虑土体径向位移时桩土耦合纵向振动特性及其应用[J].振动工程学报,2005,(2).(EI收录)
76.阙仁波,王奎华,2005.4.考虑土体三维波动效应时弹性支承桩的振动理论及其应用[J].计算力学学报,2005,(6).(EI收录)
77.李强,王奎华,谢康和,2005.12.饱和土中大直径嵌岩桩纵向振动特性研究[J].振动工程学报,2005,(4).(EI收录)
78.李强,王奎华,谢康和,2006.1.冻融作用下基桩竖向振动动力特性研究[J].岩土工程学报,2006,(1).
79.张智卿,王奎华,谢康和.2006,饱和土层中桩的扭转振动响应分析,浙江大学学报(工学版),Vol.40(7),P1211-1218。(EI收录)
80.张智卿,王奎华,谢康和,2006,非饱和土层中桩的扭转振动响应分析,岩土工程学报,Vol.28(6),P729-734。
81.张智卿,王奎华,谢康和,李强,2006,考虑地下水位影响时桩的纵向振动特性研究,岩石力学与工程学报,Vol.25(Supp.2),P4215-4225。(EI收录)
82.张智卿,王奎华,谢康和,周开茂.2007,成层非饱和土层中桩的扭转振动响应分析,科技通报,Vol.23(1),P88-96。
83.阙仁波,王奎华.2007,考虑土体三维波动效应时黏性阻尼土中桩的纵向振动特性及其应用研究,岩石力学与工程学报,Vol.26(2),P381-390。(EI收录)
84.李强,王奎华,谢康和.2007,成层饱和土中桩纵向振动特性研究及应用,工程力学,Vol.24(10),P144-149。(EI收录)
85.王奎华,陈再谦,张智卿.2008,真空负压静力试桩方法的有限元分析,浙江大学学报(工学版),Vol.42(1),P。(EI收录)
86.王奎华,杨冬英,张智卿.2008,基于复刚度传递多圈层平面应变模型的桩动力响应研究,岩石力学与工程学报,Vol.27(4),P825-831。(EI收录)。
87.张智卿,王奎华,李强,卢萌盟.2010,非饱和土中端承桩纵向振动问题简化解[J].工程力学,Vol.27(5):159-165,204.(EI)核心
88.张智卿,王奎华,耿翠珍,李强.2010,考虑成桩效应时径向非均匀饱和土体的动力扭转阻抗研究[J].岩石力学与工程学报,Vol.29(8):1721-1728.(EI)一级
89.靳建明,张智卿,王奎华,李强.2010,任意形式荷载作用下饱和土中桩的扭转振动特性研究[J].振动与冲击,Vol.29(7):50-54.(EI)核心
90.杨冬英,王奎华.2010,非均质土中基于虚土桩法的桩基纵向振动[J].浙江大学学报(工学版),Vol.44(10):2021-2028.(EI)一级
91.王奎华,杨冬英,张智卿.2010,简化平面应变土模型的精度研究及适用性分析[J].计算力学学报,Vol.27(3):496-499,516.(EI)核心
92.阙仁波,王奎华,祝春林.2010,考虑土体轴对称波动时变模量桩的纵向振动特性[J].振动工程学报,Vol.23(1):94-100.(EI)一级
93.王奎华,马少俊,刘骏龙,吴文兵.2010,一种包含库仑和朗肯理论的土压力计算方法[J].浙江大学学报(工学版),Vol.44(5):969-975.(EI)一级
94.均布荷载作用下的无黏性土地震被动土压力计算.岩石力学与工程学报,30(Supp.2),2011/9,王奎华,马少俊,吴文兵,一级期刊,EI.
95.吴文兵,王奎华,武登辉,马伯宁,2011/9,考虑横向惯性效应时楔形桩纵向振动阻抗研究.岩石力学与工程学报,Vol.30(Supp.2),一级期刊,EI.
96.王奎华,刘凯,吴文兵,王宁,2011/9,虚土桩扩散角对桩的纵向振动特性影响研究.工程力学,Vol.28(9),二级期刊,EI.
97.张智卿,王奎华,靳建民,2011/2,轴对称横观各向同性土体中桩的扭转振动响应研究.振动工程学报,Vol.24(1),一级期刊,EI.
98.杨冬英,王奎华,丁海平,2011/6,三维非均质土中粘弹性桩-土纵向耦合振动响应.土木建筑与环境工程,Vol.33(3),EI.
99.王奎华,吴文兵,马少俊,许进军,2011/8,桩底沉渣对桩的纵向振动特性影响研究及应用.岩土工程学报,Vol.33(8),一级期刊,EI.
100.王奎华,马少俊,吴文兵,胡学科,2011/7,挡土墙后双层黏性土的主动土压力计算.浙江大学学报(工学版),Vol.45(7),一级期刊,EI.
101.挡土墙后曲面滑裂面下黏性土主动土压力计算.西南交通大学学报,46(5),2011/10,王奎华,马少俊,吴文兵,二级期刊,EI.
102.李强,郑辉,王奎华,2011/1,饱和土中摩擦桩竖向振动解析解及应用.工程力学,Vol.28(1),EI.
103.胡学科,马少俊,王奎华,2011/4,传感器安装位置对高应变打桩监测结果影响的研究.振动与冲击,30(4),EI.
104.吴文兵,王奎华,杨冬英,马少俊,马伯宁.2012/03,成层土中基于虚土桩模型的桩基纵向振动响应.中国公路学报,.EI。
105.王奎华,王宁,刘凯,吴文兵,2012/5,三维轴对称条件下基于虚土桩法的单桩纵向振动分析.岩土工程学报EI.
106.王奎华,王宁,吴文兵,2012/9,预应力管桩焊接缝对桩基完整性检测的影响.浙江大学学报(工学版),EI。
107.王奎华;吴文兵;马少俊;马伯宁,2012-03-15嵌岩桩沉渣特性对桩顶动力响应的影响浙江大学学报(工学版)EI。
108.王宁,王奎华,房凯.,2012/3,考虑应力扩散时桩端土对桩体阻抗的影响哈尔滨工业大学学报,EI
109.马少俊;胡安峰;王奎华.2012/7,地震作用下挡土墙的滑动稳定性分析,工程力学,EI
110.王奎华,吕述晖,吴文兵,罗永健,武登辉.2013.3考虑应力扩散时桩端土性对单桩沉降影响分析方法[J].岩土力学,EI.
111.王奎华,吕述晖,吴文兵,罗永健.2013,层状地基中基于虚土桩模型的单桩沉降计算方法[J].工程力学,30(07):75-83+99.EI。
112.王宁,王奎华.2013,桩底土的成层性对桩体纵向刚度的影响[J].岩石力学与工程学报,32(05):1042-1048.EI
113.吴文兵,王奎华,窦斌.任意层地基中粘弹性楔形桩纵向振动响应研究[J].振动与冲击,2013,32(08):120-127.EI
114.王奎华,罗永健,吴文兵,吕述晖,武登辉.层状地基中考虑桩端应力扩散的单桩沉降计算[J].浙江大学学报(工学版),2013,47(03):472-479.,EI.
115.杨冬英,王奎华,丁海平.2013,双向非均质土中基于连续介质模型的桩动力响应特性分析[J].土木工程学报,46(03):119-126.EI.
116.吴文兵,蒋国盛,王奎华,谢帮华,黄生根.2014,土塞效应对管桩纵向动力特性的影响研究[J].岩土工程学报,36(06):1129-1141.(EI)
117.王奎华,陈鑫,吕述晖,吴文兵,李振亚.2014,自由振动时带承台单桩的纵向动力特性[J].浙江大学学报(工学版),48(09):1595-1602.(EI)
118.周佳锦,龚晓南,王奎华,张日红,严天龙.2014,静钻根植竹节桩在软土地基中的应用及其承载力计算[J].岩石力学与工程学报,33(S2):4359-4366.(EI)
119.周佳锦,龚晓南,王奎华,张日红.2014,静钻根植竹节桩抗压承载性能[J].浙江大学学报(工学版),48(05):835-842.(EI)
120.周佳锦,王奎华,龚晓南,张日红,严天龙,许远荣.2014,静钻根植竹节桩承载力及荷载传递机制研究[J].岩土力学,35(05):1367-1376.(EI)
121.周佳锦,王奎华,龚晓南,张日红,严天龙.2015,静钻根植抗拔桩承载性能数值模拟[J].浙江大学学报(工学版),49(11):2135-2141.(EI)
122.庾焱秋,王奎华,吕述晖,徐礼阁.2015,传感器黏结剂对低应变测试曲线的影响[J].浙江大学学报(工学版),49(09):1725-1730.(EI)
123.钱铮,王奎华.2015,静钻根植桩水平承载性能试验研究[J].岩土力学,36(S2):588-594.(EI)
124.周佳锦,龚晓南,王奎华,张日红,许远荣.2015,静钻根植竹节桩桩端承载性能数值模拟研究[J].岩土力学,36(S1):651-656.(EI)
125.王奎华,张宏志.2015,高温蒸汽养护提高水玻璃粘结膨胀珍珠岩材料耐水性能的研究[J].新型建筑材料,42(05):75-77.
126.王奎华,李振亚,吕述晖,张鹏,庾焱秋.2015,静钻根植竹节桩纵向振动特性及应用研究[J].浙江大学学报(工学版),49(03):522-530.(EI)
127.李振亚,王奎华,吕述晖,庾焱秋.2015,考虑桩侧土体非线性的静荷载作用下的单桩沉降时间效应研究[J].岩石力学与工程学报,34(05):1022-1030.(EI)
128.吕述晖,王奎华,张鹏.2015,梁-桩-土竖向耦合振动特性分析[J].力学学报,47(01):169-173.(EI)
224.周佳锦,龚晓南,王奎华,张日红,严天龙.2015,静钻根植竹节桩荷载传递机理模型试验[J].浙江大学学报(工学版),49(03):531-537+546.(EI)
129.周佳锦,龚晓南,王奎华,张日红.2015,静钻根植竹节桩抗拔承载性能试验研究[J].岩土工程学报,37(03):570-576.(EI)
130.周佳锦,王奎华,龚晓南,张日红,严天龙.2016,静钻根植竹节桩桩端承载性能试验研究[J].岩土力学,37(09):2603-2609.(EI)
131.王奎华,高柳,肖偲,王宁.2016,考虑桩周土竖向作用大直径楔形桩纵向振动特性[J].岩土力学,37(S2):223-231+242.(EI)
132.吕述晖,王奎华,吴文兵.2016,考虑横向惯性效应时黏弹性支承桩纵向振动特性研究[J].振动工程学报,29(04):679-686.(EI)
133.徐礼阁,王奎华,张鹏,吕述晖,李振亚.2016,层状地基中考虑桩侧水泥土与土的静钻根植桩单桩沉降计算[J].中南大学学报(自然科学版),47(03):868-874.(EI)
134.李振亚,王奎华,吴文兵.2017,基于行波分解的泛频响函数法在高承台桩灾后无损检测评估中的应用研究[J].振动与冲击,36(19):21-28+45.(EI)
135.吴君涛,王奎华,高柳,肖偲,李振亚.2017,考虑桩身材料阻尼的桩基纵向振动积分变换解及其应用[J].岩石力学与工程学报,36(09):2305-2312.(EI)
136.李振亚,王奎华,吴文兵.2017,考虑施工扰动效应时大直径扩底桩纵向振动阻抗研究[J].岩石力学与工程学报,36(S1):3678-3688.(EI)
137.李振亚,王奎华,高柳.2017,考虑土体竖向波动效应的静钻根植竹节桩纵向振动阻抗研究[J].岩石力学与工程学报,36(07):1791-1802.(EI)
138.李玲玲,蒋建群,黄博,王奎华.2017,岩土原位测试技术实验教学模式初探[J].实验室研究与探索,36(03):189-192.
139.王奎华,高柳,吴君涛,肖偲.2017,三维波动土中考虑桩身变截面与桩周土相互作用的大直径桩的动力特性[J].岩石力学与工程学报,36(02):496-503.(EI)
140.周佳锦,龚晓南,王奎华,张日红,王孟波.2017,层状地基中静钻根植竹节桩单桩沉降计算[J].岩土力学,38(01):109-116.(EI)
141.李振亚,王奎华.2017,考虑横向惯性效应时非均质土中大直径桩纵向振动特性及其应用[J].岩石力学与工程学报,36(01):243-253.(EI)
142.吴君涛,王奎华,肖偲,刘鑫.2018,弹性支承桩周围土振动响应解析解及其波动规律研究[J].岩石力学与工程学报,37(10):2384-2393.(EI)
143.]王奎华,肖偲,吴君涛,高柳.2018,饱和土中大直径缺陷桩振动特性研究[J].岩石力学与工程学报,37(07):1722-1730.(EI)
144.高柳,王奎华,李振亚,郭海超,王宁.2018,考虑桩周土竖向作用和施工扰动效应时大直径楔形桩的纵向振动特性[J].振动与冲击,37(02):30-37+65.(EI)
145.吴君涛,王奎华,肖偲,高柳.2018,静钻根植工法下变截面管桩纵向振动特性分析[J].岩石力学与工程学报,37(04):1030-1040.(EI)
146.王奎华,张宏志,李振亚,高柳,肖偲.2017,桩底土对既有承台单桩纵向振动特性的影响研究[J].湖南大学学报(自然科学版),44(11):170-176.(EI)
147.王奎华,郭海超,高柳,肖偲.2018,三维波动土中带承台单桩的纵向振动特性研究[J].岩石力学与工程学报,37(02):497-505.(EI)
148.王忠瑾,方鹏飞,谢新宇,王奎华,王文军,李金柱.2018,带肋竹节桩竖向抗压承载力影响因素分析[J].岩土力学,39(S2):381-388.(EI)
149.王奎华,童魏烽,王磊.基于非等截面桩体模型的缺陷楔形桩动力响应研究[J].天津大学学报(自然科学与工程技术版),2018,51(12):1238-1245.(EI)
150.王忠瑾,张日红,王奎华,方鹏飞,谢新宇,徐韩强,李金柱.2019,能源载体条件下静钻根植桩承载特性[J].浙江大学学报(工学版),53(01):11-18+50.(EI)
151.王奎华,肖偲,高柳,吴君涛.2019,静钻根植竹节桩竖向动力响应研究[J].振动与冲击,38(15):49-56+86.(EI)
152.王奎华,童魏烽,肖偲,吴斌杰.2019,楔形桩的动力响应与试验研究[J].湖南大学学报(自然科学版),46(05):94-102.(EI)
153.王奎华,童魏烽.基于非等截面桩体模型的楔形桩动力响应[J].哈尔滨工业大学学报,2019,51(08):104-110.(EI)
154.吴斌杰,王奎华,童魏烽,肖偲.2019,基桩完整性检测中的尺寸效应及桩身阻抗变化效应[J].岩石力学与工程学报,38(S1):3229-3237.(EI)
155.吴君涛,王奎华,刘鑫,孙梵.2019,考虑桩身三维效应下的大直径薄壁管桩–桩端土塞耦合振动模型及其解析解[J].岩石力学与工程学报,38(05):1064-1072.(EI)
156吴君涛,王奎华,刘鑫,肖偲.2019,缺陷桩周围成层土振动响应解析解及其在旁孔透射波法中的应用[J].岩石力学与工程学报,38(01):203-216.(EI)