王激揚

王激揚

王激揚,男,博士,浙江大學建築工程學院副教授,碩士生導師。

基本介紹

  • 中文名:王激揚
  • 畢業院校:京都大學
  • 學位/學歷:博士
  • 職業:教師
  • 專業方向:鋼筋混凝土結構與抗震、高性能建築材料、 組合結構
  • 就職院校:浙江大學建築工程學院
個人經歷,研究方向,主講課程,獲獎榮譽,學術成果,研究項目,發明專利,學術論文,出版著作,

個人經歷

2008年3月畢業於京都大學(Kyoto University, Japan),獲工學博士學位。
2012年入選杭州市“521”計畫創新人才。
2015年12月-2017年6月任浙江省住房和城鄉建設廳村鎮建設管理處副處長(掛職)。
2017年起任中國建築學會抗震防災分會建築結構抗倒塌專業委員會委員,中國建築學會建築結構分會新材料及新型結構專業委員會委員。

研究方向

鋼筋混凝土結構與抗震高性能建築材料組合結構

主講課程

1. 工程抗震,本科課程;
2. 鋼筋混凝土結構基本原理,本科課程;
3. 高等工程抗震,研究生課程

獲獎榮譽

1. 2015年度浙江大學教育基金會土木建築規劃教育基金園丁獎
2. 2014年中國產學研合作創新成果獎:超高韌性水泥基複合材料技術創新及產業化,獲獎人:徐世烺, 李慶華, 李賀東, 王激揚

學術成果

研究項目

  1. 面向抗震韌性的城鄉建築新型結構體系研發,中國地震局重點實驗室重點專項,201909-202208(項目負責人)
  2. 地震作用下既有砌體結構的抗倒塌性能研究,中央高校科研業務費-科研發展專項,201901-201912(項目負責人)
  3. 玄武岩纖維TRC增強砌體結構的抗震性能與設計理論研究,國家自然科學基金面上項目,201601-201912(項目負責人)
  4. 交通大流量負荷下鋼橋面高延性混凝土鋪裝層複合結構的套用研究,浙江省建設科研項目,201809-202008(項目負責人)
  5. 再生骨料透水磚與地面磚的性能最佳化設計,企業合作一般橫向,201801-201912(項目負責人)
  6. 扭振效應下高流動性應變硬化纖維混凝土複合橋墩的抗震性能與設計方法,浙江省自然科學基金項目,201601-201812(項目負責人)
  7. 地震災害風險檢測與評估技術套用,浙江省重點研發計畫,201801-201912(子課題負責人)
  8. 鋼結構建築防火關鍵技術研究,十二五科技支撐計畫,201201-201512 (子課題負責人)
  9. TRC薄壁牆板的耐高溫性能及溫度場研究,重大工程結構安全防護與健康服役科技創新團隊,201307-201406(項目負責人)
  10. 基於界面粘結性能的TRC薄壁牆板受力機理及計算理論研究,中央高校科研業務費-科研發展專項,201301-201406 (項目負責人)
  11. 玄武岩纖維複合砂漿加固混凝土結構的受力機理研究,浙江省教育廳科研項目,201110-201310 (項目負責人)
  12. 基於地震損傷的不規則剪力牆受力機理及抗震性能定量評估方法,中央高校科研業務費-青年創新專項,201103-201302 (項目負責人)
  13. 華潤電力蒼南發電廠超超臨界燃煤發電機組乾煤棚風洞試驗研究,企業合作一般橫向, 201306-201406 (項目負責人)
  14. 不規則剪力牆基於損傷的抗震性能定量評估方法,浙江省博士後擇優資助,201009-201109 (項目負責人)
  15. 混凝土脆性特徵的斷裂力學分析及裂縫起裂機理研究,國家自然科學基金(面上項目),201401-201712 (項目骨幹成員)
  16. 複雜高層建築的風致動力效應和時變可靠度研究,國家自然科學基金(青年項目),201101-201312(項目骨幹成員)
  17. 新型超高韌性水泥基複合材料在公路隧道中裂縫控制的套用研究,企業合作重大橫向,201309-201512 (項目骨幹成員)

發明專利

1. 一種非承重式輕質薄壁減震隔牆,專利號:ZL2012103929148,發明人:王激揚,李慶華,沈玲華,徐世烺
2. 一種基於超高韌性水泥基複合材料的夾芯保溫牆體及牆板,專利號:ZL201210234163.7,發明人:徐世烺,李慶華,沈玲華,王激揚
3. 能用於噴射的超高韌性水泥基複合材料及其噴射工藝,專利號:ZL201410394916.X,發明人:徐世烺,李慶華,王激揚,周斌,黃博滔
4.直型短切纖維拉拔試驗試樣成型模具及其製作方法,專利號:ZL201510061130.0,發明人:李賀東,閆東明,王激揚

學術論文

SCI收錄期刊論文:
[1] Jiyang Wang, Jin Tao, Le Li, Chunsheng Zhou and Qiang Zeng*. Thinner fillers, coarser pores? A comparative study of the pore structure alterations of cement composites by graphene oxides and graphene nanoplatelets [J]. Composites Part A, 2020, 130: 105750. (SCI) (IF:6.282)
[2] Jiyang Wang*, Chenglin Wan, Qiang Zeng, Linghua Shen, Muhammad Akbar Malik and Dongming Yan. Effect of eccentricity on retrofitting efficiency of basalt textile reinforced concrete on partially damaged masonry columns [J]. Composite Structures, 2020, 232: 111585. (SCI) (IF:4.829)
[3] Jin Tao, Jiyang Wang and Qiang Zeng. A comparative study on the influences of CNT and GNP on the piezoresistivity of cement composites [J]. Materials Letters, 2020, 259: 126858. (SCI) (IF:3.019)
[4] Qi Zhang, Beibei Li, Qiang Zeng, Jiahua Deng, Jiyang Wang and Dongmin Yan. Erosion of aerial lime and sticky rice mortars by cyclic wetting-drying and dilute sulfate acid actions [J]. Advances in Cement Research, 2019: 1800103. (SCI) (IF:1.355)
[5] Yong Chen, Zhongzheng Hu, Yong Guo, Jiyang Wang*, Genshu Tong and Qingsong Liu. Effects of chord pre-load on strength of CHS X-joints stiffened with external ring stiffeners and gusset plates [J]. Engineering Structures, 2019, 195: 125-143. (SCI) (IF:3.084)
[6] Qiang Zeng, Rui Fang, Hedong Li, Yu Peng and Jiyang Wang. Tailoring the thermal and mechanical properties of lightweight cement-based composites by macro and micro fillers [J]. Cement and Concrete Composites, 2019, 102: 169-184. (SCI) (IF:5.172)
[7] Xiaohu Wang, Yu Peng, Jiyang Wang and Qiang Zeng. Pore structure damages in cement-based materials by mercury intrusion: a non-destructive assessment by x-ray computed tomography [J]. Materials, 2019, 12(14): 2220. (SCI) (IF:2.972)
[8] Qiang Zeng, Zhen Lin, Chunsheng Zhou and Jiyang Wang. Capillary imbibition of ethanol in cement paste traced by X-ray computed tomography with CsCl-enhancing technique [J]. Chemical Physics Letters, 2019, 726: 117-123. (SCI) (IF:1.901)
[9] Qiang Zeng, Xiaohu Wang, Pengcheng Yang, Jiyang Wang and Chunsheng Zhou. Tracing mercury entrapment in porous cement paste after mercury intrusion test by X-ray computed tomography and implications for pore structure characterrization [J]. Materials Characterization, 2019, 151: 203-215. (SCI) (IF:3.220)
[10] Yong Chen, Jiyang Wang*, Yong Guo, Shijie Guan, Lixian Yang and Bingnan Sun. Mechanical behavior of welded hollow spherical joints with diameter exceeding 1.0 m [J]. Journal of Constructional Steel Research, 2019, 159: 21-33. (SCI) (IF:2.650)
[11] Yong Chen, Zhongzheng Hu, Yong Guo, Jiyang Wang*, Hanbo Dan, Qingsong Liu and Yu Pan. Ultimate bearing capacity of CHS X-joints stiffened with external ring stiffeners and gusset plates subjected to brace compression [J]. Engineering Structures, 2019, 181: 76-88. (SCI) (IF:3.084)
[12] Shilang Xu, Fujiang Mu, Jiyang Wang* and Weiping Li. Experimental study on the interfacial bonding behaviors between sprayed UHTCC and concrete substrate [J]. Construction and Building Materials, 2019, 195: 638-649. (SCI) (IF:4.046)
[13] Qi Zhang, Qiang Zeng, Chuang Zheng, Jiyang Wang, Shi lang Xu. Oven dying kinetics and status of cement-based porous materials for in-lab microstructure investigation [J]. Advances in Cement Research, 2018, 30(5): 204-215. (SCI) (IF:1.355)
[14] Shilang Xu, Linghua Shen and Jiyang Wang*. The high-temperature resistance performance of TRC thin-plates with different cementitious materials: Experimental study [J]. Construction and Building Materials, 2016, 115: 506-519. (SCI)
[15] Dongming Yan, Qiang Zeng, Shilang Xu, Qi Zhang, Jiyang Wang. Heterogeneous Nucleation on Concave Rough Surfaces: Thermodynamic Analysis and Implications for Nucleation Design [J]. The Journal of Physical Chemistry C, 2016, (SCI) (IF:4.046)
[16] Ling-hua Shen, Shi-lang Xu and Ji-yang Wang*. Mechanical behaviour of TRC thin-plates exposed to high temperature: experimental study [J]. Magazine of Concrete Research, 2015, 67(21): 1135-1149. (SCI) (IF:2.026)
[17] Shi-lang Xu, Ling-hua Shen, Ji-yang Wang* and Ye Fu. High temperature mechanical performance and micro interfacial adhesive failure of textile reinforced concrete thin-plate [J]. Journal of Zhejiang University: Science A, 2014, 15(1): 31-38. (SCI) (IF:1.369)
[18] Yong Chen, Ji-yang Wang*, Yong Guo, Guo-hui Shen, Li-xian Yang and Bin-nan Sun. Behavior of axially loaded tubular X-joints using bolted connection: mechanical model and validation [J]. Journal of Zhejiang University: Science A, 2013, 14(12): 880-889. (SCI)
[19] Sheng Bao, Fan Xu, Ji-yang Wang* and Hangfei Lou. Magnetomechanical measurements for nondestructive evaluation of failure in steel structural element [J]. Journal of Materials Engineering and performance, 2013, 22(5): 1351-1354. [DOI: 10.1007/s11665-012-0410-1] (SCI)
[20] Wang J.*, Sakashita M., Kono S. and Tanaka H. Shear behaviour of reinforced concrete structural walls with eccentric openings under cyclic loading: experimental study [J]. the Structural Design of Tall and Special Buildings, 2012, 21(9): 669-681. (SCI)
[21] Wang J.*, Sakashita M., Kono S. and Tanaka H. Behavior of reinforced concrete structural walls with various opening locations: experiments and macro model [J]. Journal of Zhejiang University Science A, 2010, 11(3): 202-211.(SCI)
EI收錄期刊論文:
[1] Shen L. H.,Wang J. Y., Xu S. L. and Amoako-Atta G. Fire Resistance Behavior of Full-scale Self-thermal Insulation Sandwich Walls Made of Textile-reinforced Concrete [J]. International Journal of Heat and Technology, 2019, 37(1): 239-248. (EI)
[2] 王激揚*, 陳勇, 郭勇, 陳聰, 孫炳楠. 窄基輸電塔分離式K型節點的受力性能試驗研究 [J]. 工程力學, 2019, 36(S1): 66-70. (EI)
[3] 穆富江, 王激揚*, 李偉平, 徐世烺. 鋼絲網-噴射UHTCC薄板抗彎性能試驗研究 [J]. 工程力學, 2018, 35(S1): 338-343.(EI)
[4] 劉承斌, 王激揚, 陳勇, 應健, 冉楊, 麻堅. 全GFRP筋混凝土電纜排管的抗剪承載力 [J]. 複合材料學報, 2018, 35(12): 3331-3341. (EI)
[5] 劉承斌, 應健, 陳勇, 王激揚, 冉楊, 麻堅. 全玻璃纖維增強樹脂筋混凝土電纜排管的抗彎試驗 [J]. 複合材料學報, 2018, 35(1): 70-80. (EI)
[6] 薛濱, 陳勇, 陳聰, 張文杰, 郭勇, 王激揚, 孫炳楠. 拉彎荷載下鋼管桿塔內外法蘭設計計算方法 [J]. 工程力學, 2017, 34(10): 76-86. (EI)
[7] 王激揚*,馬衛強,萬成霖,陳榮達,胡志華. PE纖維水泥基複合材料框架樑柱節點的抗震性能試驗研究 [J]. 世界地震工程, 2017, 33(4): 180-186.
[8] 王激揚*,馬衛強,胡志華,萬成霖. PE纖維摻量對水泥基複合材料力學性能的影響 [J]. 浙江大學學報(工學版), 2017, 51(11): 2130-2135. (EI)
[9] 王激揚*, 沈玲華, 徐世烺. 鋼纖維TRC薄板的常溫及高溫後彎曲力學性能 [J]. 工程力學, 2016, 33(S1): 6-17. (EI)
[10] 沈玲華, 王激揚*,徐世烺. 摻入短切纖維的纖維編織網增強混凝土薄板彎曲力學性能試驗研究 [J]. 建築結構學報, 2016, 37(10): 98-107. (EI)
[11] 陳勇,關士傑,郭勇,王激揚,楊驪先,孫炳楠:超大直徑加勁焊接空心球節點的抗拉極限承載力研究 [J]. 土木工程學報,2016,49(2): 1-10. (EI)
[12] 王激揚*,沈玲華,徐世烺,付曄:不同膠凝材料的精細混凝土高溫後力學性能 [J]. 工程力學,2015,32(S): 248-253. (EI)
[13] 王激揚*,河野進. 地震水平往復力作用下多層帶框架剪力牆的試驗與分離度模型 [J]. 土木工程學報. 2013, 46(S2):201-206(EI)
[14] 陳勇,王激揚*,郭勇,沈國輝,楊驪仙,孫炳楠. 輸電塔雙軸受壓螺栓連線鋼管節點的受力性能試驗與有限元分析 [J]. 土木工程學報. 2013, 46(S2):219-224. (EI)
[15] 王激揚*, 樓文娟, 田中仁史. 大開洞混凝土剪力牆巨觀計算模型的改進 [J]. 土木工程學報, 2011, 44(4):35-41.(EI)
[16] Wang J.*, Sakashita M., Kono S. and Tanaka H. Seismic Behavior of Multi-story Structural Walls under Cyclic Lateral Loading: Experimental Study [J]. Research Journal of Applied Sciences, Engineering and Technology, 2012, 4(16): 2794-2799. (EI)

出版著作

王激揚,黃嘯蔚:浙江省建築標準設計圖集《防水透氣膜建築構造》(2013浙J67)

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