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    王博 
    
				  
    
				  
    發布者:阮勤超發布時間:2023-09-22瀏覽次數:244
    
				  
    
					
    姓名:王博  職稱:教授🌐,研究生導師
    指導研究方向👨🏽‍🦳:鈦合金及鈦基復合材料
    通訊地址:上海市松江區龍騰路333號行政樓1619
    電子郵箱1️⃣:wangbo@sues.edu.cn
    聯系電話:021-67791203
    教育經歷:
    2005.09~2009.07  哈爾濱工業大學  意昂体育4开户   材料科學與工程   學士 
    2009.09~2011.07  哈爾濱工業大學  意昂体育4开户     材料學      碩士  
    2011.07~2015.07  哈爾濱工業大學  意昂体育4开户     材料學      博士   
    工作經歷👩🏿‍🎨:
    2015.08~至今   意昂体育4平台    材料工程意昂体育4         材料學        副教授
    研究情況:
    1. 國家自然科學基金《網狀結構TiBw/Ti60復合材料高溫變形組織重構及演變機製研究》,2018.1-2020.12, 主持
    2. 上海市高校青年教師培養資助計劃《網狀結構鈦基復合材料電子束表面改性研究》  
    2016.1-2017.12, 主持  
    1. 第九批(2019 年)“上海高校教師產學研計劃”, 踐習單位♖:上海市上海構捷三維科技有限公司, 2019.7-2020.7, 主持🪰;   
    2. 意昂体育4平台展翅計劃, 2018.1-2020.12, 主持  
    3. 意昂体育4平台校啟動項目《網狀結構鈦基復合材料超塑性成型研究》, 2016.1-2017.12, 主持  
    4. 橫向《彩鋼板表面耐蝕塗層開發與設計》, 昆山協多利潔凈系統股份有限公司,2023,主持
    5. 橫向《石墨烯碳納米管復合導熱薄膜材料的研發》, 蘇州格拉魯伯石墨烯新材料有限公司,2022,主持
    6. 橫向《鎂合金高溫塑性變形行為研究》, 揚州大學, 2016.4-2017.4, 主持  
    7. 橫向《鑄態高溫合金力學性能研究》, 上海交通大學, 2017.4-2018.4, 主持  
    8. 橫向《IN939 高溫合金熔鑄實驗與高溫力學性能研究》, 上海交通大學, 2017.9-2018.9, 主持  
    9. 橫向《TA1 和 TA7 鈦合金熱變形行為研究》, 內蒙古工業大學, 2018.12-2019.12, 主持  
    10. 橫向《焊接熱循環過程應力應變模擬測試》, 上海交通大學, 2019.10-2020.10, 主持
    11. 國家自然科學基金《壓凝固 Al-Cu 合金組織演變及力學性能研究》, 2017.1-2019.12, 第二參與人  
    12. 國家自然科學基金《LiTiO3壓電陶瓷結構缺陷的多角度調控機製及壓電性能研究》, 2017.1-2019.12, 第二參與人  
    13. 國家自然科學基金《Mg-RE合金熱鍛中第二相誘發空洞演化致其損傷斷裂機製及多尺度模擬》, 2019.1-2021.12, 第三參與人  
    14. 國家自然科學基金《增強體準連續網狀分布TiB/TC4復合材料設計與製備基礎研究》, 2011.1-2013.12, 第三參與人
    15. 國家自然科學基金《網狀結構TiB/Ti60復合材料高溫塑性變形與強化和氧化機理研究》, 2012.1-2014.12, 第三參與人
    16. 橫向《中重型汽車轉向節組織控製和性能提升研究》, 上海嘉仕久精密鑄造有限公司, 2018.12-2019.12, 第二參與人  
    17. 橫向《新型電纜屏蔽用鋁合金帶材研究與開發》, 溫州信德, 2019.8-2020.8, 第二參與人  
    18. 橫向《焊接熱模擬技術》, 上海電氣核電設備有限公司, 2019.5-2020.5, 第三參與人
    論文信息🧏🏼‍♀️:
    1. H.Y. Zhang, B. Wang, L. Zhang, F.Z. Zhang. Preparation and high-temperature oxidation behavior of a nanoscale remelting layer on TiBw/TC4 composites by electron beam remelting.Vacuum. 2022, 201. (SCI 二區IF: 6.40)
    2. F.Z. Zhang, B. Wang, Q.H. Cao, L. Zhang, H.Y. Zhang. Effect of deformation degree on microstructure and mechanical properties evolution of TiBw/Ti60 composites during isothermal forging. Transactions of Nonferrous Metals Society of China. 2022. (SCI 一區IF: 5.30)
    3. Y.T. Zhang, B. Wang. H.B. Zhang, Y. Li. The effects of thermal deformation temperatures on microstructure and mechanical properties of TiBw/Ti60compositessynthesized by SPS.Mater.Res.Express. (2021)066520. (SCI 四區IF: 3.80)
    4. Yang Li, Xiaojia Liu, Jiuchuan Guo , Yueting Zhang , Jinhong Guo, Xinggui Wu, Bo Wang ,  Xing Ma. Simultaneous Detection of Inflammatory Biomarkers by SERS Nanotag-Based Lateral Flow Assay with Portable Cloud Raman Spectrometer. Nanomaterials. (SCI 二區IF: 6.60)
    5. H. B. Zhang, B. Wang, Y. T. Zhang, Y. Li, J. L. He, Y. F. Zhang. Microstructure evolution and deformation mechanisms of β phase in TiBw/Ti60 composites studied by reconstructing grain during the hot deformation. Journal of Alloys and compounds. Available online 20 2020,825. (SCI 二區IF: 9.6)
    6. H. B. Zhang, B. Wang, Y. T. Zhang, Y. Li, J. L. He, Y. F. Zhang. Influence of aging treatment on the microstructure and mechanical properties of CNTs/7075 Al composites. Journal of Alloys and compounds. 2020, 814. (SCI 二區IF: 9.6)
    7. B. Wang. H.B. Zhang, L.J. Huang, J.L. He, Y.F. Zhang. Evolution of microstructure and high temperature tensile properties of as-extruded TiBw reinforced near-α titanium matrix composite subjected to heat treatments. SCIENCE CHINA Technological Sciences. 2018, 61:1340-1345.(SCI 二區IF: 6.1)
    8. B. Wang, L.J. Huang, L. Geng. Modification of microstructure and tensile property of TiBw/near-alpha Ti composites by tailoring TiBw distribution and heat treatment. Journal of Alloys and compounds. 2017, 690:424-430. (SCI 二區IF: 9.6)
    9. B. Wang, L.J. Huang, L. Geng. Effects of deformation conditions on the microstructure and substructure evolution of network structured TiBw/Ti60 composites. Materials Science and Engineering A. 2015, 627: 316-325. (SCI 一區IF: 9.4)
    10. B. Wang, L.J. Huang, L. Geng. Compressive behaviors and mechanisms of TiB whiskers reinforced high temperature Ti60 alloy matrix composites. Materials Science and Engineering A. 2015, 648: 443-451. (SCI 一區IF: 9.4)
    11. B. Wang, L.J. Huang, L. Geng. Effects of heat treatments on microstructure and tensile properties of as-extruded TiBw/near-α Ti composites. Materials & Design. 2015, 85:679-686. (SCI 二區IF: 6.25)
    12. B. Wang, L.J. Huang, L. Geng, B.X. Liu. Superior tensile strength and microstructure evolution of TiB whisker reinforced Ti60 composites with network architecture after beta extrusion. Materials Characterization. 2015, 103:140-149. IF=2.714 (SCI 三區IF: 3.62)
    13. Jianli He, Fei Chen, Bo Wang, Luo Bei Zhu. A modified Johnson-Cook model for 10%Cr steel at elevated temperatures and a wide range of strain rates. Materials Science and Engineering A. 2018, 715: 1-9. (SCI 二區IF: 4.62)
    14. Huang, LJ; Geng, L; Wang, B; Xu, H. Y; Kaveendran. B. Effects of extrusion and heat treatment on the microstructure and tensile properties of in situ TiBw/Ti6Al4V composite with a network architecture. COMPOSITES PART A. 2012, 43:486-491. IF4.075 
    15. L.J. Huang, H.Y. Xu, B. Wang, Y.Z. Zhang, L. Geng. Effects of heat treatment parameters on the microstructure and mechanical properties of in situ TiBw/Ti6Al4V composite with a network architecture. Materials & Design, 2012, 36, 694-698. (SCI 二區IF: 6.25)
    16. L.J. Huang, L. Geng, B. Wang, L.Z. Wu. Effects of volume fraction on the microstructure and tensile properties of in situ TiBw/Ti6Al4V composites with novel network microstructure. Materials & Design, 2013, 45, 532-538. (SCI 二區IF: 6.25)
    17. B.X. Liu, L.J. Huang, L. Geng, B. Wang, X.P. Cui, C. Liu, G.S. Wang. Microstructure and tensile behavior of   novel laminated Ti-TiBw/Ti composites by reaction hot pressing. Materials Science and Engineering A. 2013, 583: 182-187. (SCI 二區IF: 4.62)  
    18. B.X. Liu, L.J. Huang, L. Geng, B. Kaveendran, B. Wang, X.Q. Song, X.P. Cui. Gradient grain distribution and enhanced properties of novel laminated Ti-TiBw/Ti composites by reaction hot-pressing. Materials Science and Engineering A. 2014, 595: 257-266. (SCI 二區IF: 4.62).  
    19. B.X. Liu, L.J. Huang, L. Geng, B. Wang, C. Liu, W.C. Zhang. Fabrication and superior ductility of laminated Ti-TiBw/Ti composites by diffusion welding. Journal of Alloys and compounds. 2014, 602: 187-192. (SCI 二區IF: 4.12)
    20. H.T. Hu, L.J. Huang, L. Geng, B.X. Liu, B. Wang. Oxidation behavior of TiB-whisker-reinforced Ti60 alloy composites with three-dimensional network architecture. Corrosion Science. 2014, 85:7-14. (SCI 一區IF: 6.76)
    專利著作★:
    1. 王博, 李東, 趙健.一種TiBw/TC4復合材料表面納米重熔層及其製備方法.(發明專利, 201810189552.X)
    2. 黃陸軍, 王博, 耿林, 榮旭東, 崔西平, 劉寶璽.一種耐磨高韌的殼芯結構鈦基棒材及其製備方法.(發明專利, ZL 2014 1 0624751.0)  
    3. 趙健, 王付鑫, 李東, 王博, 於治水. 基於雙電子束的TC4鈦合金增材製造構件應力緩釋方法. (發明專利, ZL.2016 1 0312445.2)  
    獲獎信息:
      黑龍江省科學技術一等獎 輕質耐熱鈦基復合材料組織設計與應用基礎

    
				  
    
                  
				 
			
    
		
    
  
    

    


    




    

    
    
    
        
    
            
    
            
            
    
        
    
    
    




    

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