著作
专著《地质与岩土工程分布式光纤监测技术》,科学出版社,2019-03-15,主编2/3
教材《工程地质学》,科学出版社,2017-04-15,参编
标准
《基桩分布式光纤测试规程》(T/CECS 622-2019),中国工程建设标准化协会标准,2019-09-10,主编
《桩基地热能利用技术标准》(JGJ/T438-2018),中华人民共和国住房和城乡建设部行业标准,2018-07-0121,参编
论文
2020
[1]ZhangL.,ShiB.*, ZhangD.*SunY.J.,InyangH.Kinematics,triggers and mechanism of Majiagou landslide based on FBG real-time monitoring.Environ Earth Sci 79,200(2020).https://doi.org/10.1007/s12665-020-08940-5(SCI,EI)
[2]ZhengB.N., Zhang D. *,WangG.Y.,ChenZ.,SangH.W.,GaoY.L.,LiuY.The Behavior of Gravel-SoilInterface
During Triaxial Testing of the Mixed Soil.Soil Mech Found Eng 57,147–154(2020).https://doi.org/10.1007/s11204-020-09650-7(SCI,EI)(41572271,41772327,BK20161239)
[3]桑宏伟,张春光,刘洋,张丹*.基于DTS的土体分布式导热系数测试方法[J].地下空间与工程学报,2020,16(02):540-546.(41572271,BK20161239)
[4]刘洋,张丹*,桑宏伟,周殷康,阎长虹.下蜀土导热系数与电阻率和剪切波速关系模型试验研究[J].防灾减灾工程学报,2020,40(03):453-459.(41572271,BK20161239)
[5]方袁江,吴冠中,张丹*,王光亚,龚绪龙.用于地面沉降监测的光纤-砂土变形协调性试验研究[J].岩土力学,2020(S2):1-9.(41572271,2018021,XNY-002)
2019
[1]SangH.W., Zhang D. *,GaoY.L.,ZhangL.,WangG.Y.,ShiB.,ZhengB.N.,LiuY.Strain distribution based geometric models for characterizing thedeformation of a slidingzone.EngineeringGeology,263,(2019)105300.https://doi.org/10.1016/j.enggeo.2019.105300(SCI,EI)(41572271,41772327)
[2]LiuY., Zhang D. *,WangG.Y.,LiuC.,ZhangY.Discrete element method-based prediction of areas prone to buried hill-controlled earth fissures.Journal of Zhejiang University-SCIENCEA(Applied Physics&Engineering).2019,20(10):794-803.(SCI,EI)(41572271,41772327)
[3]ZhangD.*,JiT.Y.,ZhengB.N.,WangG.Y.,ShiB.Analysis method for spatial movement of gravels in mixed soil during triaxial testing.Bulletin of Engineering Geology and the Environment(2019).doi:10.1007/s10064-019-01573-4(EI)(41572271,41272315,41772327).
[4]崔何亮,张丹*,施斌,张晨,彭书生.保压蜗壳外围混凝土应变及脱空分布式光纤监测.防灾减灾工程学报,2019,39(5):700-707.(41572271)
[5]吴冠中,张丹*,程健,刘洋.不同埋管形式的预制能量管桩热响应试验研究.防灾减灾工程学报.2019,39(4):615-621.(41572271)
[6]郑博宁,丁大勇,张丹*,高磊,杨捷.含砾滑带土三维颗粒流模型建模方法研究[J].工程地质学报,2019,27(3):569-576.doi:10.13544/j.cnki.jeg.2017-211.(41272315,41572271)
[7]桑宏伟,张丹*,刘春,秦岩.基于离散元法的能源管桩传热过程模拟.防灾减灾工程学报,2019,39(4):645-650.(41572271,BK20161239)
[8]高雨龙,张丹*,吴冠中.能源桩-土体接触力学特征试验装置的研发与应用.防灾减灾工程学报.2019,39(4):673-677.(41572271,BK20161239)
[9]张磊,施斌,张丹,韩贺鸣,魏广庆.基于BOTDR的滑坡抗滑桩工作状态评价及分析[J].工程地质学报,2019,27(06):1464-1472.
[10]张平松,张丹,孙斌杨,施斌,许时昂.巷道断面空间岩层变形与破坏演化特征光纤监测研究[J].工程地质学报,2019.27(2):260-266.doi:10.13544/j.cnki.jeg.2018-070.
2018
[1]刘子文,张丹*,程健.土体电阻率与导热系数的相关性实验研究.高校地质学报,2018,24(2):251-256.(41572271)
[2]程健,张丹,刘子文.基于弯曲元的剪切波扁铲侧胀技术可行性试验研究.工程勘察,2018,3:12-16.(41572271)
[3]陈卓,张丹*,孙梦雅.基于FBG技术的土体含水率测量方法试验.水文地质工程地质,2018,45(4):108-112.(41572271)
[4]徐文涛,程刚,章杨松,张丹.采动影响下覆岩变形分布特征模型试验研究.煤炭技术,2018,37(11):35-37.
[5]CuiH.L., Zhang D.*,ShiB.,PengS.S..BOTDAbasedwater-filling and preloading test of spiral case structure.
Smart Structures Systems,2018,21(1):27-35.(SCI)(41572271)
[6]ZhangD.,WangY.A.,ChengJ.Internal Force Response of a Pile in an Inhomogeneous Temperature Field.Energies,2018,11,18;doi:10.3390/en11010018.(SCI,EI)(41572271)
[7]ZhangC.C.,ZhuH.H.,LiuS.P.,ShiB., ZhangD.A kinematic method for calculating shear displacements of landslides using distributed fiber optic strain measurements.EngineeringGeology,2018,234:83-96.
2017
[1]FangH.D., ZhangD.*,SongZ.P.,ShiB.BOTDA based investigation on the effects of closure strips in bottom plate during the construction of navigation lock.Measurement,2017,https://doi.org/10.1016/j.measurement.2017.11.062.(SCI,EI)(41572271,41427801)
[2]王宜安,张丹*,张春光,程健,刘子文,顾迪.非均匀温度场中的单桩内力响应模型试验研究.防灾减灾工程学报,2017,37(4):565-570.(41572271)
[3]陈卓,张丹*,王海玲.分子印迹光纤传感技术应用的研究进展[J].激光与光电子学进展,2017,54(12):120001.(41572271)
[4]季婷媛,张丹*,王光亚,施斌.抽水诱发的基岩潜山型地裂缝高风险区模拟预测.工程勘察,2017(12):24-29.(41272315)
[5]李博,张丹*,陈晓雪,王嘉诚,施斌.分布式传感光纤与土体变形耦合性能测试方法研究.高校地质学报,2017,23(4):633-639.(41572271,41272315)
[6]陈晓雪,独莎莎,张丹*,李博,季婷媛.纤维加筋膨胀土的三轴蠕变特性试验研究.工程地质学报,2017/25(1):80-87.(41272315,40702045)
[7]ZhangD.,WangJ.C.,ZhangP.S.,ShiB.Internal strain monitoring for coal mining similarity model based on distributed fiber optical sensing,Measurement,2017(97):234-241
DOI:http://dx.doi.org/10.1016/j.measurement.2016.11.017(SCI/EI)(41572271,41272315)
2016
[1]ZhangD.,XuQ.,BezuijenA.,ZhengG.,WangH.X.Internal deformation monitoring for centrifuge slope model with embedded FBG arrays.Landslides,2016,DOI 10.1007/s10346-016-0742-2(SCI/EI)
[2]ZhangD.,WangJ.C.,LiB.,ShiB.Fatigue characteristics of distributed sensing cables under low cycle elongation.SmartStructures and Systems,2016,18(6):1203-1215.D
OI:http://dx.doi.org/10.12989/sss.2016.18.6.1203(SCI)(41272315,41572271)
[3]SongZ.P.,Zhang D. *,ShiB.,ChenS.E.,ShenM.F.Integrated distributed fiber optic sensing technology‐based
structural monitoring of the pound lock.Structural Control and Health Monitoring,2016,DOI:10.1002/stc.1954(SCI/EI)
[4]SunY.J.,ShiB.,ZhangD.,TongH.J.,WeiG.Q.,XuH.Z.Internal Deformation Monitoring of Slope Based on BOTDR.Journal of Sensors,2016,http://dx.doi.org/10.1155/2016/9496285(SCI/EI)
[5]LiC.S.,Zhang D. *,DuS.S.,ShiB.,Computed tomography based numerical simulation for triaxial test of soil–rock mixture.Computers and Geotechnics,73(2016):179–188.(SCI/EI)
[6]王嘉诚,张丹*,闫继送,李博,施斌.分布式传感光缆循环疲劳性能的测试方法.光通信研究,2016.1:15-18.(41272315,41572271)
[7]刘少林,张丹*,张平松,王嘉诚,施斌.基于分布式光纤传感技术的采动覆岩变形监测.工程地质学报,2016,24(6):1118-1125.
[8]陈晓雪,张丹*,施斌王嘉诚,李博,季婷媛.土石混合体应力松弛试验研究.工程地质学报,2016,24(Suppl.):252-257.(41272315)
[9]季婷媛,张丹*,李长圣,施斌,陈晓雪.土石混合体砾-土接触面参数的敏感性分析.工程地质学报,2016,24(Suppl.):1203-1210.(41272315,41572271)
2015
[1]ZhangC.C.,ZhuH.H.,SheJ.K., ZhangD.,ShiB.Quantitative Evaluation of Optical Fiber/Soil Interfacial Behavior and Its Implications for Sensing Fiber Selection.IEEESENSORS Journal,2015,15(5):3059-3067.(SCI/EI)
[2]XuS.A.,ZhangP.S., ZhangD.,WuR.X.,GuoL.Q.Simulation study of fiber optic monitoring technology of surroundingrock deformation under deep mining conditions.J CivilStruct Health Monit(2015)5:563–571.(SCI/EI)
[3]张丹,张平松,施斌,王宏宪,李长圣.采场覆岩变形与破坏的分布式光纤监测与分析.岩土工程报,2015,37(5):952-957.
[4]王嘉诚,张丹*,刘少林,张平松,施斌.煤层底板采动变形分布式光纤监测与分析[J].工程地质学报,2015,23(Suppl.):712-720.
[5]李博,张丹,王嘉诚,刘少林,施斌.基于传感光缆应变分布的土体剪切变形计算方法.工程地质学报,2015,23(Suppl.):767-772.
[6]SongZ.P.,ShiB.,ZhuH.H.,ShenM.F., ZhangD.,SunY.J.Construction monitoring of lock head base plate using distributed optical fiber sensing technique.Journal of Southeast University(EnglishEdition),2015,31(4):535-540.(EI)
[7]王兴,施斌,张丹,魏广庆,孟志浩.BOFDA分布式光纤监测技术及其在桩基测试中的应用.工程勘察,2015,12:13-17.
2014
[1]SunY.J.,Zhang D.*,ShiB*,TongH.J.,WeiG.Q.,WangX.Distributed acquisition,characterization and process analysis of multi-field information in slopes[J].EngineeringGeology,2014,182:49-62(SCI/EI).
[2]SunY.J.,ShiB.,ChenS.E.,ZhuH.H., ZhangD.,LuY.Feasibility study on corrosion monitoring of aconcrete column with central rebar using BOTDR.Smart Structures and Systems,2014,13(1):41-53.
[3]王宏宪,张丹*,李长圣,独莎莎.基于PPP-BOTDA的膨胀土裂隙发育特征的分析与表征方法研究[J].工程地质学报,2014,22(2):210-217.
[4]李长圣,张丹*,王宏宪,独莎莎.基于CT扫描的土石混合体三维数值网格的建立[J].岩土力学,2014,35(9):2731-2736(EI).
[5]宋占璞,张丹,方海东,施斌,费冰.大体积混凝土水化热温度变化光纤监测技术研究[J].工程地质学报,2014,22(2):244-249.
[6]ZhangD.,ShiB.,SunY.J.,TongH.J.,WangG.Y.Bank Slope Monitoring with Integrated Fiber Optical Sensing Technology in Three Gorges Reservoir Area[C],IAEG XII CONGRESS,2014.9.Vol2:135-138.(EI)
[7]WangG.Y.,ZhangD.,FengJ.S.,ChenM.Z.,ShanW.H.Land Subsidence Due to Deep Ground water Withdrawal in Northern YangtzeRiver Delta Area[C],IAEG XII CONGRESS,2014.9.Vol5:125-130.(EI)
[8]ZhangD.,SunY.J.,ShiB.,TongH.J.,WangH.X.Integrated Fiber Optical Sensing Technology for Landslide Monitoring
[C],World Landslide Forum3,Beijing,2014.6.Vol4:330-335.
2013
[1]Zhang D.,CuiH.L.,ShiB.Spatialresolution of DOFS and its calibration methods[J].Optic sand Lasers in Engineering,2013,51(4):335-340(SCI/EI).
[2]崔何亮,张丹*,施斌.布里渊分布式传感的空间分辨率及标定方法[J].浙江大学学报(工学版),2013,47(7):1232-1237(EI).
[3]孙义杰,张丹,童恒金,施斌.分布式光纤监测技术在三峡库区马家沟滑坡中的应用[J].中国地质灾害与防治学报,2013,24(04):97-102.
[4]王菀,干昆蓉,施斌,张丹.一种基于布里渊光时域反射的土质隧道分布式光纤传感应用技术[J].隧道建设,2013,33(2):110-115.
[5]SongZ.P., ZhangD.,ShiB.,SuoW.B.A study on distributed measurement in ship lock structural construction monitoring using fiber optic sensing technologies.Global View of Engineering Geology and the Environment.Editors:FaquanWu and ShengwenQi,CRCPress2013.(EI)
2012
[1]张丹,许强,郭莹.玄武岩纤维加筋膨胀土的强度与干缩变形特性试验[J].东南大学学报:自然科学版,2012,42(5):975-980(EI).
[2]张丹,徐洪钟,施斌,刘亮亮.基于FBG技术的饱和膨胀土失水致裂过程试验研究[J].工程地质学报,2012,20(1):103-108.
[3]杨豪,张丹*,施斌,干昆蓉,段朝峰.直埋式光纤传感钻孔注浆耦合材料配合比试验研究[J].防灾减灾工程学报,2012,32(6):714-719.
[4]LuY.,ShiB.,WeiG.Q.,ChenS.E., ZhangD.Application of a distributed optical fiber sensing technique in monitoring the stress of precast piles.Smart Materials and Structures,2012,21,115011.
2011
[1]徐洪钟,周元,张丹.基于GIS的岩溶塌陷分布式光纤监测系统的研发[J].水文地质工程地质,2011,38(3):120-123.
[2]ShiB.,ZhangD.,ZhuH.H.,LiuC.Application of distributed optical fiber strain measurement into Geotechnical Engineering monitoring[C].Proceeding of the 8th International Workshop on Structural Health Monitoring,Stanford University,Stanford,CASept.13-15,2011.
2010
[1]DingY.,ShiB.,ZhangD.Data processing in BOTDR distributed strain measurement based on pattern recognition[J].Optik,2010,121(24):2234-2239(SCI).
2009
[1]ZhangD.,XuH.Z.,ShiB.,SuiH.B.,WeiG.Q.Brillouin power spectrum analysis for partially uniformly strained opticalfiber[J],OpticsandLasersinEngineering,2009,47(9):976-981(SCI/EI).
[2]朴春德,施斌,张丹,朱友群,魏广庆.基于BOTDR技术的超长灌注桩承载机理研究[J].工程勘察,2009,(2):1-5.
[3]魏广庆,施斌,贾建勋,胡盛,李科,张丹.分布式光纤传感技术在预制桩基桩内力测试中的应用.岩土工程学报,2009,31(6):911-916.
2008
[1]隋海波,施斌,张丹,王宝军,魏广庆,朴春德.边坡工程分布式光纤监测技术研究[J].岩石力学与工程学报,2008,27(z2):3725-3731(EI)
[2]隋海波,施斌,张丹,王宝军,魏广庆,朴春德.基于BOTDR的锚杆拉拔试验研究[J].岩土工程学报,2008,30(5):755-759(EI).
[3]隋海波,施斌,张丹,王宝军,魏广庆,朴春德.地质和岩土工程光纤传感监测技术综述[J].工程地质学报,2008,16(1):135-143.
[4]隋海波,施斌,张丹,魏广庆,朴春德,王宝军.基坑工程BOTDR分布式光纤监测技术研究[J].防灾减灾工程学报,2008,28(2):184-191.
2007
[1]ShiB.,ZhangD.,WeiG.Q.,SuiH.B.,WangB.J.,PiaoC.D.A study on BOTDR based distributed monitoring
for slope engineering[C].3rd International Conferenceon Structural Health Monitoring of Intelligent Infrastructure,Vancouver,CANADA,NOV13-16,2007.
2006
[1]XuH.Z.,ZhangD.,Wavelet based data processing for distributed fiber optic sensors[C]
Proceedings of 5th International Conference on Machine Learning and Cybernetics,2006,Vols1-7:4040-4045.
[2]李国维,黄志怀,张丹,王思敬.玻璃纤维增强聚合物锚杆承载特征现场试验[J],岩石力学与工程学报,2006,25(11):2240-2246(EI).
[3]刘杰,施斌,张丹,随海波,索文斌.基于BOTDR的基坑变形分布式监测实验研究[J],岩土力学,2006,27(7):1224-1229(EI).
2005
[1]LiuJ.,ShiB.,ZhangD.,SuiH.B.,SuoW.B.,A Feasibility Research on Foundation Pit Monitoring Using BOTDR[C],Proceedings of SHMII'05,Shenzhen,China,Taylor&Francis Publishers,Nov.2005:569-573.
2004
[1]ZhangD.,ShiB.,CUIH.L.,XUH.Z.,Improvement of Spatial Resolution of BOTDR Using Spectral Decomposition[J],Optica Applicata,2004,34(2):291-301(SCI/EI).
[2]张丹,施斌,徐洪钟.基于BOTDR的隧道应变监测研究[J],工程地质学报,2004,12(4):422-426.
[3]张丹,施斌,徐洪钟,高俊启,朱虹.BOTDR用于钢筋混凝土T型梁变形监测的试验研究[J],东南大学学报,2004,34(4):480-484(EI).
[4]ShiB.,Zhang D.,DingY.,XuH.Z.,CuiH.L.A new distributed optical fiber sensor for structural health monitoring–BOTDR[C],Proceedings of the Third International Conference on Earthquake Engineering,2004:836-839.
2003
[1]张丹,施斌,吴智深,徐洪钟,丁勇,崔何亮.BOTDR分布式光纤传感器及其在结构健康监测中的应用[J],土木工程学报,2003,36(11):83-87.
[2]ZhangD.,ShiB.,XuH.Z.,DingY.,CuiH.L.&GaoJ.Q.,Application of BOTDR into structural bending monitoring[C],Proceedings of SHMII'03,Japan,Nov.2003:271-276(ISTP).
[3]ShiB.,XuH.Z.,ChenB.,Zhang D.,DingY.,CuiH.L.&GaoJ.Q.,A feasibility study on the application of fiber-optic distributed sensors for strain measurement in theTaiwanStrait Tunnel project,Marine Georesources&Geotechnology,JUL-DEC2003,21(3-4):333-343(SCI/EI).
[4]ShiB.,XuH.Z.,ZhangD.,DingY.,CuiH.L.,GaoJ.Q.&ChenB.,A Study on BOTDR application in monitoring deformation of a tunnel[C],First International Conference on Structural Health Monitoring and Intelligent Infrastructure,Japan,Nov.2003:1025-1030.
[5]徐洪钟,施斌,张丹,丁勇,崔何亮,吴智深.基于小波分析的BOTDR光纤传感器信号处理方法[J],光电子.激光,2003,14(7):737-740(EI)
