吳 鵬���,男��,1990年4月生���,江蘇南通人,博士���,副教授���。主要從事工程復(fù)合材料結(jié)構(gòu)、組合結(jié)構(gòu)、木結(jié)構(gòu)�、試驗與檢測等方面的研究。主持國家自然科學(xué)基金青年項目1項��,江蘇省自然科學(xué)基金青年項目1項�、江蘇省高等學(xué)校自然科學(xué)研究面上項目1項,參加6項省部級縱向課題�。發(fā)表學(xué)術(shù)論文40余篇,其中以第一作或通訊作發(fā)表SCI檢索論文25篇���,累計影響因子115)�����。
? 受教育經(jīng)歷
2008/09 – 2012/06, 必贏3003no1線路檢測中心�����,土木工程專業(yè)��,工學(xué)學(xué)士����。
2012/09 – 2018/06, 必贏3003no1線路檢測中心,結(jié)構(gòu)工程專業(yè)��,工學(xué)博士��。
2017/03 – 2018/03����, 澳大利亞國立大學(xué),工程與計算科學(xué)專業(yè)���,博士聯(lián)合培養(yǎng)�。
? 研究工作經(jīng)歷
2019/01 –2022/07�, 必贏3003no1線路檢測中心,必贏3003no1線路檢測中心��,講師�。
2022/07 – 至今, 必贏3003no1線路檢測中心��,必贏3003no1線路檢測中心���,副教授���。
? 承擔(dān)的科研項目
項目名稱��、編號 | 項目來源 | 起止年月 | 負(fù)責(zé)內(nèi)容 |
荷載與溫��、濕度耦合作用下復(fù)合拉擠型材彎曲蠕變損傷多尺度機理及設(shè)計方法(52108220) | 國家自然科學(xué)基金青年項目 | 2022.01-2024.12 | 主持 |
荷載-溫度耦合作用下復(fù)合材料夾層結(jié)構(gòu)的蠕變性能研究(BK20190668) | 江蘇省自然科學(xué)基金青年項目 | 2019.07-2022.06 | 主持 |
荷載和溫度共同作用下復(fù)合材料夾層結(jié)構(gòu)的蠕變性能研究(19KJB560014) | 江蘇省高等學(xué)校自然科學(xué)研究面上項目 | 2019.09-2021.08 | 主持 |
裝配式建筑輕質(zhì)墻體隔聲性能提升技術(shù)創(chuàng)新與應(yīng)用 | 江蘇省重點研發(fā)計劃(社會發(fā)展面上項目) | 2022.07~2025.06 | 骨干 |
大跨空間木結(jié)構(gòu)建筑火災(zāi)損傷機理及性能化防火設(shè)計(BK20211536) | 江蘇省杰出青年基金 | 2021.07-2024.06 | 骨干 |
新型復(fù)合材料夾芯結(jié)構(gòu)沖擊吸能機理與構(gòu)型優(yōu)化(51778285) | 國家自然科學(xué)基金面上項目 | 2018.01-2021.12 | 參與 |
格構(gòu)增強復(fù)合材料框架結(jié)構(gòu)受力機理及設(shè)計方法研究(51578285) | 國家自然科學(xué)基金面上項目 | 2016.01-2019.12 | 參與 |
人與結(jié)構(gòu)動力相互作用建模研究(11372127) | 國家自然科學(xué)基金面上項目 | 2014 .01-2017.12 | 參與 |
大跨徑混凝土梁橋FRP綜合加固技術(shù)研究(2012CB026205-2) | 國家重點基礎(chǔ)研究發(fā)展計劃子課題 | 2012.02-2017.02 | 參與 |
? 代表性論文(按發(fā)表時間倒序)
[1] Xiaolong Li, Peng Wu *, Hai Fang, Jie Wang, Yunwei Yu. 3D viscoelastic solutions for bending creep of layered rectangular plates under time-varying load. Composite Structures, 2023, 325, 117590. (SCI一區(qū)��,6.3)
[2] Zhiyuan Yang, Hong Zhu, Fei Yu, Peng Wu *, Hai Fang. Thermo-mechanical coupled behavior of laminated beams with temperature-dependent viscoelastic interlayers. European Journal of Mechanics / A Solids, 2023, 100, 105000. (SCI二區(qū),4.1)
[3] Yue K.*, Qian J., Wu P., Jiao X.K., Lu D., Song X.L. Experimental analysis of thermally-treated Chinese poplar wood with focus on structural application [J]. Industrial Crops and Products, 2023, 197, 116612. (SCI一區(qū), 6.449)
[4] Yue K.*, Li X., Jiao X.K., Wu P., Song X.L. Strength grading of Chinese poplar wood for structural use following thermal modification [J]. Polymer Testing, 2023, 123(2): 108032. (SCI一區(qū), 5.005)
[5] Wu T.Y., Yue K.*, Wang S.P., Liang B., Wu P., Lu W.D., Xu C., Sun K.P. Experimental investigation on mechanical properties and fire performance of innovative wheat straw-gypsum composites as building sheathing panels. Industrial Crops and Products, 2023. (SCI一區(qū), 5.834)
[6] Zhiyuan Yang, Hong Zhu*, Bai Zhang , Zhiqiang Dong , Peng Wu. Short-term creep behaviors of seawater sea-sand coral aggregate concrete: An experimental study with Rheological model and neural network. Construction and Building Materials, 2023, 363, 129786. (SCI一區(qū), 7.4)
[7] Qian J., Yue K.*, Lv C.L., Zhu L., Jiao X.K., Wu P., Xu C., Sun K.P. Measurements of the mechanical properties of larch at elevated and high temperature under nitrogen conditions. Polymer Testing, 2023, 128(23): 108228. (SCI一區(qū), 5.005)
[8] Chen Li, Sheng-cai Li *, Kong Yue, Peng Wu *, Zhong-ping Xiao, Jun Zhang. Analytical solutions and optimization design for bending behavior of cross-laminated timber beams considering orthotropy and interface slip. Case Studies in Construction Materials, 2023, 18, e01948. ( SCI三區(qū),6.2)
[9] Bin Guan, Tiaojin Xu, Kong Yue, Wenqin Deng, Peng Wu *, Jiandong Zhang *. Exact solution and case studies for composite I-beam with corrugated steel web. Case Studies in Construction Materials, 2023, 19, e02422. ( SCI三區(qū),6.2)
[10] Kaige Cheng, Yaohui Wang, Hai Fang, Changgen Qian, Peng Wu*. Experimental Investigation and Prediction for Bending Creep of Glass Fiber-Reinforced Polymer Pultruded Tube. Buildings, 2023, 13, 2714. (SCI三區(qū)�����,3.8)
[11] Xiaolong Li, Peng Wu *, Hai Fang. Application of the Burgers model and elasticity theory to obtain viscoelastic solutions for flexural creep of layered beams. Mechanics of Advanced Materials and Structures, 2023, 2162645. (SCI三區(qū)�����,2.8)
[12] Yinxia Yu, Wenqin Deng, Kong Yue, Peng Wu*. Viscoelastic Solutions and Investigation for Creep Behavior of Composite Pipes under Sustained Compression. Buildings, 2023, 13, 61.(SCI三區(qū)�����,3.8)
[13] Yubing Qin, Kong Yue, Peng Wu*. Efficient Analytical Model for Long-Term Performance of Laminated Tube with Viscoelastic Interlayer by Quasi-Elastic Approximation. Mathematical Problems in Engineering, 2023, 8534406. (SCI四區(qū),1.430)
[14] 岳孔*, 李響, 石鑫磊, 焦學(xué)凱, 吳鵬, 張仲鳳, 董國良, 方遠(yuǎn)進(jìn). 高溫預(yù)處理對楊木正交膠合木剪力墻抗側(cè)力性能的影響[J]. 林業(yè)科學(xué), 2023. (EI檢索,錄用)
[15] 岳孔*, 程相宇, 張玉才, 吳鵬, 石鑫磊, 郭華瑜. 木結(jié)構(gòu)墻體空氣聲隔聲性能試驗研究[J]. 林業(yè)科學(xué), 2024. (EI檢索�,錄用)
[16] Peng Wu *, Fei Yu, Kong Yue, Jie Wang, Linxiao Xie. Thermo-mechanical analysis of laminated cylindrical shell with viscoelastic bonding interlayers. Composite Structures, 2022, 300, 116159. (SCI一區(qū),6.3)
[17] Jiye Chen, Lu Zhu, Hai Fang?, Juan Han, Ruili Huo?, Peng Wu. Study on the low-velocity impact response of foam-filled multi-cavity composite panels[J]. Thin-Walled Structures, 2022, 173, 108953. (SCI一區(qū), 6.4)
[18] Fei Yu, Bin Guan, Peng Wu?, Hai Fang, Zhenyuan Gu. Long-term behavior of multilayered angle-ply plate structures with viscoelastic interlayer by state space method[J]. Thin-Walled Structures, 2022, 171, 108766. (SCI一區(qū), 6.4)
[19] Yun Gao, Fei Yu, Peng Wu*, Exact analytical solutions for bending creep behavior of viscoelastic laminated arches with interlayers. Thin-walled structures, 2022. 174, 109128 (SCI一區(qū), 6.4).
[20] 韓娟, 方海*, 吳鵬. 懸索橋輕質(zhì)復(fù)材人行道板的研制及其受力性能[J]. 復(fù)合材料學(xué)報, 2022, 39(11): 5355-5366.
[21] 岳孔*, 陸棟, 胡文杰, 戴長路, 吳鵬, 陸偉東. 高溫中木材順紋弦面抗剪強度試驗研究[J]. 林業(yè)科學(xué), 2022, 58(1): 111-118. (EI檢索)
[22] Honglei Xie, Hai Fang*, Xiaolong Li, Li Wan*, Peng Wu, Yi Yu. Low-velocity impact damage detection and characterization in composite sandwich panels using infrared thermography[J]. Composite Structures, 2021, 269, 114008. (SCI一區(qū), 6.3)
[23] Ming Wang, Peng Wu?, Hai Fang. Exact solution for infinite multilayer pipe bonded by viscoelastic adhesive under non-uniform load[J]. Composite Structures, 2021, 259, 113240. https://doi.org/10.1016/j.compstruct.2020.113240. (SCI一區(qū), 6.3)
[24] Juan Han, Lu Zhu, Hai Fang*, Jian Wang, and Peng Wu. The energy absorption behaviour of novel composite sandwich structures reinforced with trapezoidal latticed webs[J]. Reviews on Advanced Materials Science, 2021, 60(1) : 503-518. (SCI二區(qū), 3.6)
[25] Ming Wang, Zhiyuan Yang, Peng Wu?, Hai Fang, Ruili Huo. 3D analytical solution for multilayer functionally graded plates with viscoelastic interlayers[J]. Mechanics Based Design of Structures and Machines, 2021, http://dx.doi.org/10.1080/15397734.2021.1920033. (SCI三區(qū)���,3.9)
[26] Pengfei Liu , Fei Yu, Peng Wu*, et al. Exact Solutions for Time-Varying Bending Behavior of Multilayer Orthotropic Beams Bonded by Viscoelastic Interlayers[J]. International Journal of Applied Mechanics, 2021, 13(09) 2150108. (SCI三區(qū), 3.5).
[27] Peng Wu*, Zhiyuan Yang, Xi Huang, Weiqing Liu*, Hai Fang, Exact solutions for multilayer functionally graded beams bonded by viscoelastic interlayer considering memory effect. Composite Structures, 2020, 249: 112492. (SCI一區(qū), 6.3)
[28] Xiaolong Li, Weiqing Liu, Hai Fang*, Ruili Huo, Peng Wu. Flexural creep behavior of web reinforced GFRP-balsa sandwich beams: Experimental investigation and modeling. Composites Part B: Engineering, 2020, 196, 108150. (SCI一區(qū), 7.635)
[29] Zhiyuan Yang, Peng Wu*, Weiqing Liu, Hai Fang, Analytical solutions for functionally graded sandwich plates bonded by viscoelastic interlayer based on Kirchhoff plate theory. International Journal of Applied Mechanics, 2020, 12(6): 2050062. (SCI三區(qū), 3.5)
[30] Zhiyuan Yang, Peng Wu*, Weiqing Liu, Time-dependent behavior of laminated functionally graded beams bonded by viscoelastic interlayer based on the elasticity theory. Archive of Applied Mechanics, 2020, 90: 1457-1473. (SCI四區(qū), 2.8)
[31] Zhiyuan Yang, Peng Wu, Weiqing Liu. Time-Dependent Characteristics of Two-Layer Functionally Graded Plates Adhesively Bonded by a Viscoelastic Interlayer Based on Kirchhoff Plate Theory. Mechanika, 2020, 26(6):478-485.(SCI四區(qū), 0.7)
[32] Ruili Huo, Yichen Liu, Peng Wu, Hai Fang, Weiqing Liu, Ding Zhou. Elasticity Solutions for Sandwich Arches considering Permeation Effect of Adhesive. Advances in Polymer Technology, 2020, online, doi.org/10.1155/2020/7358930. (SCI四區(qū), 3.1)
[33] Xiaolong Li, Weiqing Liu, Hai Fang, Ruili Huo, Peng Wu. Flexural creep behavior and life prediction of GFRP-balsa sandwich beams. Composite Structures, 2019, 224���,111009. (SCI一區(qū), 6.3)
[34] Peng Wu, Jiaqi Dong, Linglong Zhang, Qing-Hua Qin*. Benchmark solution for multilayer magneto-electro-elastic plates adhesively bonded by viscoelastic interlayer. Journal of Intelligent Material Systems and Structures, 2019, 30(3): 445-462. (SCI三區(qū), 2.7)
[35] Zhiyi Pei, Lin Wang, Peng Wu, Jiandong Zhang, Ding Zhou. Analytical Solution of Deformations for Two-Layer Timoshenko Beams Glued by a Viscoelastic Interlayer. Mathematical Problems in Engineering, 2019,1-15. (SCI四區(qū),1.430)
[36] Peng Wu, Chao Hu , Qing-Hua Qin. Time-dependent behavior of layered magneto-electro-elastic cylindrical shell with viscoelastic interlayer. Composite Structures, 2018, 200: 874-885. (SCI一區(qū), 6.3)
[37] Peng Wu, Ding Zhou*, Weiqing Liu, Hai Fang. Time-dependent behavior of layered arches with viscoelastic interlayers. Mechanics of Time-Dependent Materials, 2018, 22(3): 315-330. (SCI三區(qū),2.5)
[38] Peng Wu, Ding Zhou*, Weiqing Liu, Weidong Lu, Hai Fang. 3-D exact solution of two-layer plate bonded by a viscoelastic interlayer with memory effect. Composite Structures, 2017, 164: 291-303. (SCI一區(qū), 6.3)
[39] Ruili Huo, Weiqing Liu, Peng Wu, Ding Zhou. Analytical solutions for sandwich plates considering permeation effect by 3-D elasticity theory. Steel and Composite Structures, 2017, 25(2): 127-139. (SCI二區(qū), 4.6)
[40] Peng Wu, Ding Zhou*, Weiqing Liu, Weidong Lu, Li Wan. Three-dimensional elasticity solution of layered plates with viscoelastic interlayers. Mechanics of Time-Dependent Materials, 2017, 21(3): 307-329. (SCI三區(qū),2.5)
[41] 王林�,吳鵬,周叮�,張建東. 黏彈性膠合鐵木辛柯梁的力學(xué)性能分析. 必贏3003no1線路檢測中心學(xué)報(自 然科學(xué)版), 2017, 39(5), 85-91.
[42] Peng Wu, Ding Zhou*, Weiqing Liu. 2-D elasticity solutions of two-layer composite beams with an arbitrarily shaped interface. Applied Mathematical Modelling, 2016, 40(2): 1477-1493. (SCI一區(qū), 5)
[43] Peng Wu, Ding Zhou*, Weiqing Liu, Li Wan, Duo Liu. Elasticity solution of two-layer beam with a viscoelastic interlayer considering memory effect. International Journal of Solids and Structures, 2016, 94-95: 76-86. (SCI二區(qū), 3.6)
[44] Peng Wu, Ding Zhou*, Weiqing Liu. 2-D elasticity solution of layered composite beams with viscoelastic interlayers. Mechanics of Time-Dependent Materials, 2016, 20(1): 65-84. (SCI三區(qū),2.5)
注:*代表通訊作者
? 招生專業(yè)
碩士研究生:復(fù)合材料結(jié)構(gòu)���、組合結(jié)構(gòu)��、結(jié)構(gòu)工程�����、工程力學(xué)�����。
? 聯(lián)系方式
Email: peng.wu@njtech.edu.cn; 459771678@qq.com