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第一作者论文
1. Fang Q*., Liu X., Zhang D.L., Lou H.C. Shallow tunnel construction with irregular surface topography using cross diaphragm method. Tunnelling and Underground Space Technology, 2017, 68: 11-21.
2. Fang Q*., Song H.R., Zhang D.L. Complex variable analysis for stress distribution of an underwater tunnel in an elastic half plane. International Journal for Numerical and Analytical Methods in Geomechanics, 2015, 39(16): 1821-1835.
3. Fang Q*., Tai Q.M., Zhang D.L., Wong L.N.Y. Ground surface settlements due to construction of closely-spaced twin tunnels with different geometric arrangements. Tunnelling and underground space technology, 2016, 51: 144-151.
4. Fang Q*., Zhang D.L., Li Q.Q., Wong L.N.Y. Effects of twin tunnels construction beneath existing shield-driven twin tunnels. Tunnelling and Underground Space Technology, 2015, 45: 128-137.
5. Fang Q., Zhang D.L., Zhou P., Wong L.N.Y. Ground reaction curves for deep circular tunnels considering the effect of ground reinforcement. International Journal of Rock Mechanics and Mining Sciences, 2013, 60: 401-412.
6. Fang Q., Zhang D.L., Wong L.N.Y. Environmental risk management for a cross interchange subway station construction in China. Tunnelling and Underground Space Technology, 2011, 26(6): 750-763.
7. Fang Q., Zhang D.L., Wong L.N.Y. Shallow tunnelling method (STM) for subway station construction in soft ground. Tunnelling and Underground Space Technology, 2012, 29: 10-30.
通讯作者论文
8. Li Ao, Fang Q*, Zhang Dingli, Luo Jiwei, Hong Xuefei. Blast vibration of a large-span high-speed railway tunnel based on microseismic monitoring. Smart Structures and Systems, 2018, 21(5), 561-569.
9. Chen Tielin, Pang Tiezheng, Zhao Yong, Zhang Dingli, and Fang Qian*. Numerical simulation of slurry fracturing during shield tunnelling. Tunnelling and Underground Space Technology, 2018, 74, 153-166.
10. Li Pengfei, Wang Fan, Fang Qian*. Undrained analysis of ground reaction curves for deep tunnels in saturated ground considering the effect of ground reinforcement. Tunnelling and Underground Space Technology, 2018, 71: 579-590.
11. Liu Xiang, Fang Qian*, Zhang Dingli. Mechanical responses of existing tunnel due to new tunnelling below without clearance. Tunnelling and Underground Space Technology, 2018, 80: 44-52.
12. Liu Xiang, Fang Qian*, Zhou Qiushuang, Liu Yan. Predicting ground settlement due to symmetrical tunneling through an energy conservation method. Symmetry, 2018, 10(6): 186.
13. Zhang Chengping, Zhang Xu, Fang Qian*. Behaviors of existing twin subway tunnels due to new subway station excavation below in close vicinity. Tunnelling and Underground Space Technology, 2018, 81: 121-128.
14. Guo Caixia, Qi Jie, Shi Leilei, Fang Qian*. Reasonable overburden thickness for underwater shield tunnel. Tunnelling and Underground Space Technology, 2018, 81: 35-40.
15. Chen T.L., Pang T.Z., Zhao Y., Zhang D.L., Fang Qian*. Numerical simulation of slurry fracturing during shield tunnelling. Tunnelling and Underground Space Technology, 2018, 74, 153-166.
16. Zhang N.N., Fang Q*., Li Y., Zhang D.L. Mechanical analysis of secondary lining of high-speed railway tunnel. KSCE Journal of Civil Engineering, 2017: 1-6.
17. Hou Y.J., Fang Qian*., Zhang D.L., Wong L.N.Y. Excavation failure due to pipeline damage during shallow tunnelling in soft ground. Tunnelling and Underground Space Technology, 2015, 46: 76-84.
18. Zhang D.L., Fang Q*., Li P.F., Wong L.N.Y. Structural responses of secondary lining of high-speed railway tunnel excavated in loess ground. Advances in Structural Engineering, 2013, 16(8): 1371-1379.
19. Li P.F., Fang Q*., Zhang D.L. Analytical solutions of stresses and displacements for deep circular tunnels with liners in saturated ground. Journal of Zhejiang University SCIENCE A, 2014, 15(6): 395-404.
其它
20. Li Y.J., Zhang D.L., Fang Q., Yu Q.C., Xia L. A physical and numerical investigation of the failure mechanism of weak rocks surrounding tunnels. Computers and Geotechnics, 2014, 61: 292-307.
21. Wong L.N.Y., Fang Q., Zhang D.L. Mechanical analysis of circular tunnels supported by steel sets embedded in primary linings. Tunnelling and Underground Space Technology, 2013, 37: 80-88.
22. Zhang C.P., Han K.H., Fang Q., Zhang D.L. Functional catastrophe analysis of collapse mechanisms for deep tunnels based on the Hoek-Brown failure criterion. Journal of Zhejiang University SCIENCE A, 2014, 15(9): 723-731.
23. Zhang D.L., Fang Q., Hou Y.J., Li P.F., Wong L.N.Y. Protection of buildings against damages as a result of adjacent large-span tunneling in shallowly buried soft ground. Journal of Geotechnical and Geoenvironmental Engineering, 2012, 139(6): 903-913.
24. Zhu W.J., François R., Fang Q., Zhang D.L. Influence of long-term chloride diffusion in concrete and the resulting corrosion of reinforcement on the serviceability of RC beams. Cement and Concrete Composites, 2016, 71: 144-152.
25. Chen T.L., Cheng S.Z., Fang Q., Zhou C. Numerical modeling of shallow magma intrusions with finite element method. Journal of Volcanology and Geothermal Research, 2017, 333: 53-65.
26. Chen T.L., Fang Q., Wang Z.J., Zhu W.J. Numerical simulation of compression breakage of spherical particle. Chemical Engineering Science, 2017, 173: 443-454.
27. Liu Yan, Wei Fuchang, Zhao Chenggang, Fang Qian, Li Jian. Work input for unsaturated soils considering interfacial effects. International Journal for Numerical and Analytical Methods in Geomechanics, 2018, ;42:1078–1094.
中文论文
28. 孙振宇,张顶立,房倩,台启民,于富才.基于超前加固的深埋隧道围岩力学特性研究.工程力学,2018,35(02):92-104.
29. 刘美麟,侯艳娟,张顶立,房倩.深基坑十字交叉换乘既有地铁车站变形特性分析.北京交通大学学报,2017,41(06):122-129.
30. 孙振宇,张顶立,房倩,台启民,于富才.隧道初期支护与围岩相互作用的时空演化特性.岩石力学与工程学报,2017,36(S2):3943-3956.
31. 杜明庆,张顶立,张素磊,房倩.高速铁路隧道仰拱结构受力现场实测分析.中国铁道科学,2017,38(05):53-61.
32. 文明,张顶立,房倩,齐俊,方黄城,陈文博.隧道围岩变形的非线性自回归时间序列预测方法研究.北京交通大学学报,2017,41(04):1-7.
33. 房倩,王剑晨,刘翔,宋瑞刚.超大直径泥水式盾构施工地层变形规律研究.现代隧道技术,2017,54(03):120-125.
34. 董飞,房倩,张顶立,徐会杰,李宇杰,牛晓凯.北京地铁运营隧道病害状态分析.土木工程学报,2017,50(06):104-113.
35. 于富才,张顶立,房倩,孙振宇,台启民,赵江涛.隧道围岩变形及支护刚度三维分析模型研究.西南交通大学学报,2017,52(04):738-745+763.
36. 杜明庆,张顶立,张素磊,房倩,熊磊晋.铁路隧道仰拱结构振动特性实测分析.振动与冲击,2017,36(08):237-243.
37. 文明,张顶立,房倩.高速铁路隧道围岩参数空间变异性的力学响应分析.岩石力学与工程学报,2017,36(07):1697-1709.
38. 刘美麟,房倩,张顶立,侯艳娟.深基坑内撑式支护结构综合刚度研究.岩土力学,2017,38(07):2059-2064.
39. 刘翔,房倩.变坡面浅埋偏压隧道松动围岩压力计算方法.中国铁道科学,2017,38(02):64-70.
40. 曹利强,张顶立,房倩,粟威,廖俊华.泥水盾构泥浆在砂土地层中的渗透特性及对地层强度的影响.北京交通大学学报,2016,40(06):7-13+31.
41. 张顶立,台启民,房倩.复杂隧道围岩安全性及其评价方法.岩石力学与工程学报,2017,36(02):270-296.
42. 房倩,粟威,张顶立,于富才.基于现场监测数据的隧道围岩变形特性研究.岩石力学与工程学报,2016,35(09):1884-1897.
43. 杜明庆,张顶立,房倩,张素磊,熊磊晋.铁路隧道仰拱及仰拱填充层动力响应分析.中国铁道科学,2016,37(03):38-45.
44. 张顶立,陈立平,房倩,宋瑞刚.小净距隧道中央岩墙稳定性分析及其应用.北京交通大学学报,2016,40(01):1-11.
45. 台启民,张顶立,房倩,李奥,高建朋.开挖面潜在超前破坏范围预测方法.岩石力学与工程学报,2016,35(05):1009-1018.
46. 台启民,张顶立,房倩,齐俊,李奥,黄俊.软弱破碎围岩隧道超前支护确定方法.岩石力学与工程学报,2016,35(01):109-118.
47. 于富才,张顶立,房倩,台启民,孙毅.高强钢筋格栅混凝土复合支护特性的试验研究.土木工程学报,2015,48(09):104-111.
48. 宋浩然,张顶立,房倩.地面荷载及围岩自重作用下浅埋隧道的围岩应力解.中国铁道科学,2015,36(05):54-60.
49. 李新宇,张顶立,房倩,宋浩然.越江跨海隧道突水模式研究.现代隧道技术,2015,52(04):24-31+40.
50. 董飞,张顶立,房倩,祝文君,陈立平,台启民.考虑管片接头影响的大直径盾构隧道地震响应分析.现代隧道技术,2015,52(04):111-120.
51. 李永宽,张顶立,房倩.海底隧道建设全过程风险评估分析.现代隧道技术,2015,52(03):47-54.
52. 应国刚,张顶立,陈立平,房倩,张成平.荷载结构模型在拱顶空洞存在情况下的修正.土木工程学报,2015,48(S1):181-185.
53. 李永宽,张顶立,房倩,王剑晨.浅埋暗挖隧道下穿地表建筑物安全控制技术研究.土木工程学报,2015,48(S1):266-269.
54. 宋浩然,张顶立,房倩.浅埋海底隧道的围岩应力解析解.土木工程学报,2015,48(S1):283-288.
55. 杨三资,张顶立,王剑晨,房倩,冉红玲.北京黏性土地层大直径土压平衡盾构施工地层变形规律研究.土木工程学报,2015,48(S1):297-301.
56. 文明,张顶立,房倩,张良以.地铁车站施工过程中地表沉降的NARXNN时间序列预测模型.岩石力学与工程学报,2015,34(S1):3306-3312.
57. 孙毅,张顶立,房倩,于富才,台启民.北京地区坑中坑工程地表沉降预测方法研究.岩石力学与工程学报,2015,34(S1):3491-3498.
58. 应国刚,张顶立,陈立平,房倩,杨吴礼.围岩支护作用关系中的温度影响因素研究.现代隧道技术,2015,52(01):69-75.
59. 张顶立,李倩倩,房倩,陈立平.隧道施工影响下城市复杂地层的变形机制及预测方法.岩石力学与工程学报,2014,33(12):2504-2516.
60. 台启民,张顶立,房倩,孙毅,于富才,孟猛.暗挖重叠地铁隧道地表变形特性分析.岩石力学与工程学报,2014,33(12):2472-2480.
61. 陈立平,张顶立,房倩,应国刚,黄俊.一种基于数值应力场的强度各向异性边坡稳定性分析方法.岩土力学,2014,35(12):3611-3618.
62. 李倩倩,张顶立,房倩,李栋.浅埋暗挖法下穿既有盾构隧道的变形特性分析.岩石力学与工程学报,2014,33(S2):3911-3918.
63. 李倩倩,张顶立,房倩.含空洞地层初始破坏的复变函数解析研究.岩土工程学报,2014,36(11):2110-2117.
64. 张顶立,陈峰宾,房倩.隧道初期支护结构受力特性及适用性研究.工程力学,2014,31(07):78-84.
65. 王剑晨,张顶立,张成平,房倩,苏洁,杜楠馨.北京地区浅埋暗挖法下穿施工既有隧道变形特点及预测.岩石力学与工程学报,2014,33(05):947-956.
66. 刘艳,韦昌富,房倩,陈盼.非饱和土水-力本构模型及其隐式积分算法.岩土力学,2014,35(02):365-370+406.
67. 张顶立,房倩,陈铁林.大型海底隧道钻爆法修建关键技术.北京交通大学学报,2014,38(01):1-7.
68. 王剑晨,张顶立,张成平,房倩,苏洁,陈立平.浅埋暗挖隧道近距施工引起的上覆地铁结构变形分析.岩石力学与工程学报,2014,33(01):90-97.
69. 陈立平,张顶立,房倩,应国刚,王剑晨.基于细观统计的各向异性砂土摩擦特性与破坏机制研究.岩石力学与工程学报,2014,33(S1):3291-3298.
70. 李倩倩,张顶立,张成平,房倩.不同埋深下地铁隧道围岩破坏的试验研究.现代隧道技术,2013,50(06):85-93.
71. 陈立平,张顶立,房倩,苏洁.基于细观统计的砂土摩擦特性与破坏机制研究.岩土力学,2013,34(12):3471-3478.
72. 李志佳,张顶立,房倩,李淑.基于强度折减法的土质边坡稳定性影响因素分析.隧道建设,2013,33(10):854-859.
73. 刘艳,韦昌富,赵成刚,房倩.一个高饱和度非饱和土的本构模型.岩土力学,2013,34(08):2189-2194.
74. 张顶立,张素磊,房倩,陈峰宾.铁路运营隧道衬砌背后接触状态及其分析.岩石力学与工程学报,2013,32(02):217-224.
75. 李倩倩,张顶立,张成平,房倩.不同埋深下暗挖隧道施工的地层响应.北京交通大学学报,2013,37(01):27-33.
76. 房倩,张顶立,王毅远,李鹏飞,陈铁林.高速铁路隧道初支、二衬间接触压力研究.岩石力学与工程学报,2011,30(S2):3377-3385.
77. 苏洁,张顶立,高自友,房倩.浅埋暗挖隧道施工影响下桩基沉降量与承载力损失的关系.北京交通大学学报,2011,35(04):18-21+27.
78. 房倩,张顶立,王毅远,李鹏飞,李倩倩.圆形洞室围岩破坏模式模型试验研究.岩石力学与工程学报,2011,30(03):564-571.
79. 王抒,张顶立,房倩.隧道软弱围岩相似材料的力学性能试验.华侨大学学报(自然科学版),2010,31(06):680-683.
80. 刘艳,赵成刚,王靖安,房倩.基于土性参数的土水特征曲线的预测方法.北京工业大学学报,2010,36(11):1457-1464.
81. 王抒,张顶立,房倩.响应面分析法在隧道相似材料试验中的应用.现代隧道技术,2010,47(05):44-47+84.
82. 李鹏飞,张顶立,赵勇,周烨,房倩,张翾.大断面黄土隧道二次衬砌受力特性研究.岩石力学与工程学报,2010,29(08):1690-1696.
83. 房倩,张顶立,侯永兵,李兵,孙锋.浅埋暗挖地铁车站的安全风险控制技术.北京交通大学学报,2010,34(04):16-21.
84. 赵衍发,张顶立,李鹏飞,房倩,高亮.地铁车站大断面风道施工对地面建筑物的影响及控制.北京交通大学学报,2010,34(04):6-10.
85. 李鹏飞,张顶立,李兵,房倩,孙锋.海底隧道施工过程中围岩稳定性的流固耦合分析.中国铁道科学,2010,31(03):35-41.
86. 李兵,张顶立,房倩,李鹏飞.海底隧道建设全过程核心安全风险分析.北京工业大学学报,2010,36(04):463-468.
87. 李兵,张顶立,房倩,李鹏飞.基于围岩变形控制的海底隧道突水安全风险分析.中国铁道科学,2010,31(02):84-89.
88. 房倩,张顶立,李鹏飞,刘艳.基于施工安全性的海底隧道断面优化研究.北京工业大学学报,2010,36(03):321-327.
89. 孙锋,张顶立,王臣,房倩,李兵.劈裂注浆抬升既有管道效果分析及工程应用.岩土力学,2010,31(03):932-938.
90. 张顶立,李鹏飞,侯艳娟,房倩.城市隧道开挖对地表建筑群的影响分析及其对策.岩土工程学报,2010,32(02):296-302.
91. 郭衍敬,房倩,李兵.浅埋暗挖地铁车站管棚的数值模拟及其加固效果分析.北京工业大学学报,2010,36(01):40-45.
92. 李鹏飞,张顶立,房倩,侯艳娟,李兵.变位分配原理在隧道穿越建筑物施工中的应用研究.北京工业大学学报,2009,35(10):1344-1349.
93. 李鹏飞,张顶立,房倩,刘艳,李兵.基于连续介质模型的海底隧道支护结构受力特征.北京交通大学学报,2009,33(04):7-12.
94. 李兵,张顶立,房倩,孙锋,王婷.风险系数法在海底隧道平面线位确定中的应用.北京交通大学学报,2009,33(04):13-17+33.
95. 李鹏飞,张顶立,王梦恕,房倩,李兵.海底隧道衬砌结构受力特点及断面形状优化.中国铁道科学,2009,30(03):51-56.
96. 张顶立,李兵,房倩,吴介普.基于风险系数的海底隧道纵断面确定方法.岩石力学与工程学报,2009,28(01):9-19.
97. 关继发,房倩,王振飞.北京直径线暗挖段穿越既有建筑物风险控制.岩土工程界,2008(08):50-53.
98. 苏洁,张顶立,牛晓凯,房倩.海底隧道结构健康监测设计研究.岩石力学与工程学报,2007(S2):3785-3792.
99. 房倩,张顶立,黄明琦.基于连续介质模型的海底隧道渗流问题分析.岩石力学与工程学报,2007(S2):3776-3784.
100. 房倩,张顶立.浅埋暗挖地铁车站下穿既有线结构施工方法研究.中国铁道科学,2007(05):71-77.