姓名:吴 俊 办公电话:15601618396 |
岩土工程信息与智能化、固废资源化利用、月壤原位资源利用、材料与结构抗冲击爆炸效应
2008.01~2013.03新加坡国立大学,土木与环境工程系,岩土工程专业,博士研究生
2004.09~2007.07同济大学,地下建筑与工程系,结构工程专业,硕士研究生
1999.09~2004.07 上海师范大学,建筑工程学院,土木工程专业,本科生
2023.02~至今 上海师范大学,ok138cn太阳集团,教授
2021.12~2023.01上海工程技术大学,城市轨道交通学院,教授
2016.12~2021.11上海工程技术大学,城市轨道交通学院,副教授
2013.11~2016.11上海工程技术大学,城市轨道交通学院,讲师(2016.06获硕士生导师资格)
2015.10~2018.10北京工业大学,ok138cn太阳集团,博士后
2012.04~2013.10英国Mott Macdonald工程咨询有限公司,岩土工程师
国际防护结构协会,会员
中国建筑学会智能建造学术委员会,委员
中国土木工程学会岩土工程防振减灾专业委员会,委员
中国岩石力学与工程学会岩土工程信息技术与应用分会,理事
上海市土木工程学会岩土力学与工程专业委员会,委员
上海市地质学会城市地质专业委员会,委员
[1] 国家自然科学基金面上项目:干湿循环-酸性环境侵蚀下地质聚合物固化软土动态力学性能劣化机理及预测模型研究,2024.01~2027.12
[2] 国家自然科学基金面上项目:近场爆炸作用下UHPC-FST墩柱的性能劣化机理及损伤评估方法,2021.01~2024.12
[3]北京市自然科学基金面上项目:采用钢网片加固复合水泥基道面层的减灾动力性能研究,2017.01~2019.12
[4]天津市土木建筑结构防护与加固重点实验室开放基金:高性能混凝土复合道面板减灾动力性能研究,2017.01~2018.12
[5]教育部留学归国人员启动基金:冲击荷载下新型复合机场道面破坏机理的宏观数值模拟,2015.07~2016.08
[6]横向科研项目:爆炸荷载作用下xx隧道结构损伤分析,2021.01~2022.01
参加科研项目
[1]国家自然科学基金面上项目:大型客机撞击下核电站屏蔽及附属厂房的损伤破坏与振动响应研究,2019.01~2022.12,合作单位负责人
[2]北京市自然科学基金面上项目:燃气爆炸荷载作用下城市综合管廊安全性评价研究,2018.01~2020.12,参与人
[3] 国家重点基础研究发展计划(973)项目子课题:燃(油)气爆炸条件下工程结构损伤破坏评估方法,2015.01~2019.12,参与人
[4] 新加坡国防部:The Development of Rapid Indoor Blast Effects Assessment Software,2010.01~2012.06,参与人
[5] 新加坡国防部:Development of Advanced Pavement Materials and Cover System for Protection and Mitigation of Airfield Runway,2008.01~2011.12,主要完成人
[1]2020年全国大学生数学建模竞赛,上海市二等奖指导教师
[2]2021年全国大学生数学建模竞赛,上海市三等奖指导教师
[3]第十六届中国研究生电子设计竞赛,上海市三等奖指导教师
[1]主要起草人,天津市工程建设标准:工程泥浆固化利用技术标准(T/TJKCSJ004-2022)
[1]本科生课程:《建筑结构抗震》
[2]研究生课程:《高等土力学》
[1]李 博, 吴 俊, 魏 祥, 李志高, 岩土工程实训教程[M]. 北京:机械工业出版社,2018
[2]Wu. J, Wu. H, Tan. HW, Chew. SH, Multi-layer pavement system under blast load[M]. Singapore:Springer Nature,2018
[1]吴文杰,李亮,吴俊,姚云龙,一种用于混凝土类材料抗拉试验的试件夹具,授权时间:2018-03-13,授权国别:中国,专利号:ZL201721083442.2
[2]吴文杰,李亮,吴俊,姚云龙,一种矩形长条薄板型试件抗拉试验夹具,授权时间:2018-03-30,授权国别:中国,专利号:ZL201721217025.2
[3]征西遥,吴俊,刘秀秀,一种可测量静止土压力系数的固结养护装置,授权时间:2018-07-31,授权国别:中国,专利号:ZL201821221876.9
[4]姚云龙,李亮,吴俊,吴文杰,一种金属钢板组合铰支座,授权时间:2018-08-03,授权国别:中国,专利号:ZL201721911944.X
[5]刘文丽,李亮,吴俊,吴文杰,姚云龙,一种用于网状或片状材料拉伸实验夹具,授权时间:2018-12-21,授权国别:中国,专利号:ZL201820662228.0
[6]吴文杰,李亮,吴俊,刘文丽,吴朦,杨雨珊,一种用于固定拉伸试件贴片的模具,授权时间:2019-01-11,授权国别:中国,专利号:ZL201821072297.2
[7]姚云龙,李亮,吴俊,吴文杰,一种金属锁链-钢纤维混凝土梁构件,授权时间:2019-05-17,授权国别:中国,专利号:ZL201710336976.X
[8]曹晨,吴俊,一种用于混凝土板的爆炸试验装置,授权时间:2020-10-13,授权国别:中国,专利号:ZL202022270075.5
[9] Sun Yuyan,Wang Ziguo,Cheng Shuzhen,Wu Jun,Corrosion-driven intelligent fiber, preparation method and application thereof,授权时间:2020-10-20,授权国别:澳大利亚,专利号:AU2019284139
[10] 孙宇雁,王子国,程淑珍,吴 俊,腐食駆動型スマート繊維及びその調製方法及び応用,授权时间:2022-02-24,授权国别:日本,专利号:特许第7029866号
在国内外学术期刊以及会议论文集上发表论文近70篇,其中SCI/EI收录50余篇,代表性论文如下:
[38] Min. Y, Gao. M, Yao. C, Wu. J, Wei. X, On the use of one-part geopolymer activated by solid sodium silicate in soft clay stabilization[J], Construction and Building Materials, 2023:402:132957
[37] Zhang. H, Wu. J, Zhang. C, Dong. Y, Water adsorption on kaolinite basal and edge surfaces[J]. Langmuir, 2023:39(22):7539-7547
[36] Min. Y, Wu. J*, Li B, Physicochemical and mechanical behavior of the one-part geopolymer mortar exposed to hydrochloric and sulfuric acids[J]. ASCE Journal of Materials in Civil Engineering, 2023:35(3):04022456
[35] Liu. Z, Wu. J*, Cao. C, Li. S, Yan. Q, Dynamic performance and damage assessment of a shallow buried tunnel under internal explosion[J]. Tunnelling and Underground Space Technology, 2023:133:104918
[34] Gao. B, Wu. J*, Zhao. R, Feng. X, Wang. Z, Residual seismic resistance of CFDST columns after a close-in explosion: Experimental study[J]. Structures, 2023:48:1082-1101
[33] Gao. B, Wu. J*, Chen. Q, Yu. J, Yu. H, Effect of spraying polyurea on the anti-blast performance of the ultra-high performance concrete slab[J].Sensors, 2022:22(24):9888
[32] Liu. Z, Wu. J*, Chen. Q, Yu. H, Analysis on the vulnerability of a tunnel entrance under internal explosion[J].Sensors, 2022:22(24):9727
[31] Liu. Z, Wu. J*, Yu. J et al., Damage assessment of normal reinforced concrete panels strengthened with polyurea after explosion[J].Case Studies in Construction Materials, 2022:17:01695
[30] Min. Y, Wu. J*, Li. B, Experimental study on the freeze-thaw resistance of the one-part geopolymer paste[J].Case Studies in Construction Materials, 2022:17:01269
[29] Wu. J, Liu. Z, Yu. J et al., Experimental and numerical investigation of normal reinforced concrete panel strengthened with polyurea under near-field explosion[J].Journal of Building Engineering, 2022:46:103763
[28] Li. L, Wang. H, Wu. J* et al., Experimental and numerical investigation on impact dynamic performance of steel fiber reinforced concrete beams at elevated temperatures[J].Journal of Building Engineering, 2022:47:103841
[27] Min. Y, Wu. J, Li. B, Dynamic shear modulus and damping ratio of the one-part geopolymer stabilized soft clay[J].ASCE Journal of Materials in Civil Engineering, 2022:34(7):04022120
[26] Gao. B, Wu. J*, Jia P et al., Experimental and numerical investigation of the polyurea coated ultra-high performance concrete (UHPC) column under lateral impact loading[J].International Journal of Structural Stability and Dynamics, 2022:2250037
[25] Li. L, Wang. Z, Wu. J, Du X et al., Comparative study on the dynamic mechanical properties of steel fiber reinforced concrete at high temperatures and after high temperature cooling[J].Construction and Building Materials, 2022:346:128448
[24] Wu. J, Min. Y, Li. B, Zheng. X, Stiffness and strength development of the soft clay stabilized by the one-part geopolymer under one-dimensional compressive loading[J].Soils and Foundations, 2021:61(4):974-988
[23] Min. Y, Wu. J*, Li. B, The effects of fly ash content on the strength development of soft clay stabilized by one-part geopolymer under curing stress[J].ASCE Journal of Materials in Civil Engineering, 2021:33(10):04021274
[22] Zheng. X, Wu. J*, Early Strength development of soft clay stabilized by one-part ground granulated blast furnace slag and fly ash based geopolymer[J].Frontiers in Materials, 2021:8:616430
[21] Wu. J, Liu. X, Wu. H et al., Dynamic compressive behavior of asphalt concrete material under impact load[J].ASTM Journal of Testing and Evaluation, 2020:48(4):2768-2785
[20] Yan. Q, Liu. C, Wu. J* et al., Experimental and numerical investigation of reinforced concrete pile subjected to near-field non-contact underwater explosion[J].International Journal of Structural Stability and Dynamics, 2020:48(4):2040003
[19] Wang. Z, Wu. H, Fang. Q, Wu. J, Experimental study on the residual axial capacity of ultra-high performance cementitious composite filled steel tube column under contact explosion[J].Thin-Walled Structures, 2020:147:106515
[18] Wang. Z, Wu. H, Fang. Q, Wu. J, Numerical study on the residual axial capacity of ultrahigh performance cementitious composite filled steel tube (UHPCC-FST) column under contact explosion[J].Thin-Walled Structures, 2020:153:106832
[17] Wang. Z, Wu. H, Wu. J, Fang. Q, Experimental study on the residual seismic resistance of ultra-high performance cementitious composite filled steel tube (UHPCC-FST) after contact explosion[J].Thin-Walled Structures, 2020:154:106852
[16] Yu. J, Gan. Y, Wu. J*, Wu. H, Effect of concrete masonry infill walls on progressive collapse performance of reinforced concrete infilled frames[J].Engineering Structures, 2019:191:179-193
[15] Wu. J, Liu. X, Zhou. H, Li. L, Liu. Z, Experimental and numerical study on soft-hard-soft (SHS) cement based composite system under multiple impact loads[J].Materials and Design, 2018:139:234-257
[14] Ali. S, Liu. X, Thambiratnam. D, Gu. Y, Wu. J, Parametric study on cement treated aggregate panel under impact load[J].Archives of Civil and Mechanical Engineering, 2018:18:622-629
[13] Wang. G, Yuan. M, Miao. Y, Wu. J, Wang. Y, Experimental study on seismic response of underground tunnel-soil-surface structure interaction system[J].Tunnelling and Underground Space Technology, 2018:76:145-159
[12] Wu. J, Liu. X, Performance of soft-hard-soft (SHS) cement based composite subjected to blast loading with consideration of interface properties[J].Frontiers of Structural and Civil Engineering, 2015:9(3):323-340
[11] Wu. J, Liu. X, Chew. SH, Parametric study on cement based soft-hard-soft (SHS) multi-layer composite pavement against blast load[J].Construction and Building Materials, 2015:98:602-619
[10] Wu. J, Chew. SH, Field performance and numerical model of multi-layer pavement system for blast load[J].Construction and Building Materials, 2014:52:177-188
[9] 周兆鹏, 闫秋实, 田栓柱, 吴 俊, 李建武, 爆炸荷载作用下装配式钢筋混凝土板抗爆性能试验研究[J].天津大学学报(自然科学与工程技术版), 2022:55(6):611-620
[8] 李 亮, 栾贻恒, 吴 俊, 杜修力, 吴文杰, 钢网片-聚乙烯纤维增强水泥基复合材料中低速动态拉伸性能试验研究[J].材料导报, 2022:36(5):1-6
[7] 刘子超, 吴 俊*, 喻 君, 冯晓伟, 爆炸荷载作用下钢筋混凝土构件缩尺效应的数值模拟研究[J].结构工程师, 2022:38(4):16-28
[6] 吴 俊, 征西遥, 杨爱武, 李延波, 矿渣-粉煤灰基地质聚合物固化淤泥质土的抗压强度试验研究[J].岩土力学, 2021:42(3):647-655
[5] 征西遥, 刘秀秀, 吴 俊*, 董 毅, 超细水泥对固化软土早期抗压强度影响的试验研究[J].工程地质学报, 2020:28(4):685-696
[4] 彭 帅, 李 亮, 吴 俊, 姜锡权, 杜修力, 高温条件下钢纤维混凝土动态抗压性能试验研究[J].振动与冲击, 2019:38(22):149-154
[3] 黄振恩,吴 俊*,张 洋,考虑流固耦合效应的盾构隧道开挖面稳定性研究[J]. 现代隧道技术, 2018:50(5):61-71
[2] 吴 俊, 李 亮, 杜修力, 冲击荷载作用下新型多层道面体系动态性能试验[J].天津大学学报(自然科学与工程技术版), 2017:50(12):1321-1328
[1] 吴 俊, 杜修力, 李 亮, 中高应变率下沥青混凝土动力增长系数研究[J].天津大学学报(自然科学与工程技术版), 2017:50(9):921-930
每年拟招收硕士生1~2名,欢迎报考!