姓  名：

張豔榮

職  務：

職  稱：

教授

學  曆：

研究生

學  位：

博士

通信地址：

北京市海澱區上園村3号伟德这个平台怎么样土木工程樓821

郵  編：

100044

辦公電話：

010-51683514

電子郵箱：

yr.zhang@bjtu.edu.cn

2012.11-2013.11 倫敦大學學院   土木、環境與測繪工程系  聯合培養博士

2009.9-2015.1 清華大學  土木工程系  碩博連讀 

2015.1 至今  伟德这个平台怎么样 道路與鐵道工程系   講師、副教授、教授/博導

主要從事無砟軌道劣化機理與預防修複機制、新型軌道工程綠色建築材料、智能建造與運維關鍵材料、新型軌道設計理念等研究。截止目前，主持2項國家自然基金項目、國家重點研發計劃子課題、國鐵集團重點項目課題、中國博士後基金面上項目（一等資助）、教育部基本科研業務費、伟德这个平台怎么样人才基金等多項課題。基于研究成果，發表70餘篇學術論文，SCI論文40餘篇，第一/通信作者SCI論文近30篇【第一/通信作者：An1類14篇，其中領域頂級期刊Cement and Concrete Research（IF=11.958）4篇，Construction and Building Materials（IF=7.693）10篇，ESI高被引論文3篇，單篇最高被引300餘次，總他引700餘次】。

• 軌道工程與工務管理
• 交通運輸

• 道路與鐵道工程碩士
• 道路與鐵道工程博士
• 交通運輸碩士

科技成果：機器人智能施工質量模拟仿真系統達到國際領先水平（https://www.civil.tsinghua.edu.cn/ce/info/1112/1989.htm）

• -鐵路總公司（原鐵道部）: 高速鐵路無砟軌道結構長期服役性能的韌性提升關鍵技術研究, 2022-2024
• -自然科學橫向項目: CRTSIII 型闆式無砟軌道新型建設材料性能提升技術研究, 2021-2022
• -自然科學橫向項目: 地下水位上升條件下既有地鐵結構滲漏風險防控及治理技術應用研究項目-滲漏治理材料、工藝研究及實驗, 2022-2023
• -重大資助項目: 高速鐵路無砟軌道溫控試驗平台方案設計及結構建造, 2018-2024
• -國家重點研發計劃-任務: 川藏鐵路複雜環境結構混凝土關鍵材料與應用, 2021-2024
• -基礎研究項目: 無砟軌道層間修複材料的微觀特征與關鍵性能研究, 2021-2023
• -鐵路總公司（原鐵道部）: CRTSⅢ型闆式無砟軌道智能建造技術及成套裝備研究, 2019-2021
• -自然科學橫向項目: 水泥基界面粘結材料的機器施工工藝及特性研究-01, 2020-2022
• -基礎研究項目: CRTSⅡ型闆式軌道層間疲勞傷損機理研究, 2019-2021
• -鐵路總公司（原鐵道部）: 川藏鐵路關鍵技術方案及工程對策前期研究-川藏鐵路基礎設施全生命周期監測體系與總體方案研究, 2018-2022
• -基礎研究項目: 石墨烯改性水泥瀝青膠凝材料的結構與性能研究, 2018-2021
• -鐵路總公司（原鐵道部）: 基礎設施基礎理論及前瞻技術研究——複雜溫度循環下高鐵無砟軌道力學行為及損傷特性研究, 2017-2022
• -國家自然科學基金“面上”: 高速鐵路斜拉橋上無縫線路動态變形機制及長期服役性能研究, 2018-2021
• -自然科學橫向項目: 黔張常鐵路岩溶地基強化注漿漿液性能控制研究, 2016-2022
• -國家自然科學基金"青年基金": “水泥-減水劑-水”懸浮分散體系微結構與流變性, 2017-2019
• -鐵路總公司（原鐵道部）: 時速300公裡有砟軌道深化研究, 2016-2018
• -基礎研究項目: 高速鐵路無砟軌道病害産生機理及預防修複機制研究, 2016-2017
• -國家自然科學基金“面上”: 複雜溫度條件下高速鐵路無砟軌道多層結構體系變形協調與控制機理, 2016-2019
• -自然科學類人才基金項目: 高速鐵路有砟軌道病害發生機理及整治措施研究, 2015-2016
• -2011計劃: 軌道交通安全協同創新中心-高亮團隊建設項目，, 2015-2016
• -重大資助項目: 複雜條件下高速鐵路列車-軌道-下部基礎多系統作用安全服役研究, 2015-2018
• -自然科學類人才基金項目: 外加劑作用下新拌水泥漿體早期微結構, 2015-2017
• -國家重點實驗室: 複雜溫度條件下高速鐵路無砟軌道劣化規律及安全服役研究, 2015-2017

本科生課程： 建築材料、路面工程、鐵道工程概論

研究生課程：道路工程理論與技術，學術能力寫作

指導的本科生發表SCI論文多篇，指導北京市級大創，指導的本科生與研究生獲評北京市優秀畢業生等。

指導本科生與 研究生參加第三屆國際大學生高速鐵路建造技術模拟邀請賽并獲得三等獎，指導2名研究生參加伟德这个平台怎么样第三十三屆“慧光杯”研究生學術文化節并獲得三等獎，指導5名研究生參加“申昊杯”第五屆中國研究生機器人創新設計大賽三等獎，獲評伟德这个平台怎么样研究生科技競賽優秀團隊。

歡迎本科生聯系參加大創、提前開展科研等！歡迎研究生報考！（郵件聯系）期待快樂充實的研究生生活：學到一些有用的知識，認識一些志同道合的朋友，為行業發展貢獻一部分力量。

[1]    Zhang Y, Wu K, Yu C, et al. Application of Statistical Process Control for Structural Health Monitoring of a High-Speed Railway Track System[J]. Applied Sciences, 2022, 12(12): 6046. (SCI, An3)

[2]      Yanrong ZHANG*, Kai WU*, Xiaopei CAI, Liang Gao, Keran WANG, Xuesong ZHANG. Numerical study on the pipe flow characteristics of grouting repairing pastes used in slab track. Construction and Building Materials, 2022, (SCI, An1)

[3]      Yanrong Zhang, Xuesong Zhang, Xiaopei Cai*, Liang Gao, Qiangqiang Li, Xiangming Kong. A further understanding on the strength development of cement pastes in the presence of Triisopropanolamine used in CRTS III slab track. Construction and Building Materials, 2022, (SCI, An1)

[4]      Shengnan Sha, Yanrong Zhang*, Yihan Ma, Yi Liu, Caijun Shi*, Effect of molecular structure of maleic anhydride, fumaric acid – Isopentenyl polyoxyethylene ether based polycarboxylate superplasticizer on its properties in cement pastes, Construction and Building Materials, 2021, 308, 125143.(SCI, An1)

[5]      Zhang Yanrong*, Peng Hua, Gao Liang*, Cheng Chuanming, Wang Ji. Effects of polymer latex and expansive agent on the resistance of CA pastes to sulfuric acid attacks. Journal of Materials in Civil Engineering, 2020. (SCI, An3) 引用次數：0

[6]      Zhang Yanrong*, Gao Liang*, Cai Xiaopei, Li Qiangqiang, Kong Xiangming, Influences of triethanolamine on the performance of cement pastes used in slab track. Construction and Building Materials, 2020, 238. (SCI, An1)

[7]     Zhang Yanrong*, Wu Kai, Gao Liang*, Cai Xiaopei, Yan Shang, Study on the interlayer debonding and its effects on the mechanical properties of CRTS II slab track based on viscoelastic theory. Construction and Building Materials, 2019, 224: 387-407. (SCI, An1)

[8]     Zhang Yanrong*, Cai Xiaopei, Gao Liang*, Wu Kai, Improvement on the mechanical properties of CA mortar-concrete composite specimens by modification of interlayer bonding. Construction and Building Materials, 2019, 228: 116758 (SCI, An1)

[9]     Zhang Yanrong*, Peng Hua, Gao Liang*, Cheng Chuanming, Wang Ji. Effects of polymer latex and expansive agent on the resistance of CA pastes to sulfuric acid attacks. Journal of Materials in Civil Engineering, 2020. (SCI，An3)

[10]     Cai Xiaopei, Zhang Yanrong*, Gao Liang*, Peng Hua, Wang Ji. Deterioration of cement asphalt pastes with polymer latexes and expansive agent under sulfate attack and wetting-drying cycles. Engineering Failure Analysis. 2019.  (SCI, An3)

[11]     張豔榮，吳楷，高亮，等。溫度作用下闆式軌道粘彈性和彈性分析的對比，中南大學學報，EI。2019。

[12]     Peng Hua, Zhang Yanrong*, Wang Ji, Liu Yongliang, Gao Liang. Interfacial bonding strength between cement asphalt mortar and concrete in slab track, Journal of Materials in Civil Engineering, 2019 31(7): 04019107. (SCI, An3)

[13]     Xiao Hong, Zhang Yanrong*. The initiation and propagation of fatigue crack for CRTS II slab-track inter-layer by FE-SAFE and XFEM, Journal of Rail and Rapid Transit. 2019, 233(7): 678-690. (SCI)

[14]     Zhang Yanrong*, Luo Xi, Kong Xiangming, Rheological properties and microstructure of concentrated cement suspensions in varied dispersion media. Powder technology, 2018, 330: 219-227. (SCI, An3)

[15]  Zhang Yanrong, Cai Xiaopei, Kong Xiangming, Gao Liang. Effects of comb-shape superplasticizers with different charge characteristics on the microstructure and properties of fresh cement pastes [J]. Construction and Building Materials, 2017, 155: 441-450. (SCI, An1)

[16]  Zhang Yanrong, Kong Xiangming, Gao Liang, et al. Variations of Yield Stress of Fresh Cement Pastes in the Presence of Superplasticizer Highlighted by a Hydration Index [J]. Journal of Materials in Civil Engineering, 2017, 29(2):1-12. (SCI, An3)

[17]  Zhang Yanrong, Cai Xiaopei, Kong Xiangming. Flowability and microstructure of fresh cement pastes in the presence of superplasticizer, latex and asphalt emulsion [J]. ZKG International, 2017, 7-8: 35-48. (SCI, An4)

[18]  Zhang Yanrong, Kong Xiangming, Lu Zhenbao. Influence of triethanolamine on portlandite in cement paste and the mechanism [J]. Cement and Concrete Research, 2016. (SCI, An1)

[19]  Zhang Yanrong, Kong Xiangming, Gao Liang, et al. In-situ measurement of viscoelastic properties of fresh cement paste by a microrheology analyzer [J]. Cement and Concrete Research, 2016, 79: 291-300. (SCI, An1)

[20]  Zhang Yanrong, Kong Xiangming, Gao Liang, et al. Characterization of the mesostructural organization of cement particles in fresh cement paste [J]. Construction and Building Materials, 2016, 124: 1038-1050. (SCI, An1) 

[21]  Zhang Yanrong, Kong Xiangming, Gao Liang, et al. Rheological behaviors of fresh cement pastes with polycarboxylate superplasticizer [J]. Journal of Wuhan University of Technology, Materials Science. 2016, 31(2): 286-299. (SCI, An4)

[22]  Zhang Yanrong, Kong Xiangming, Gao Liang, et al. Microstructure model of fresh cement paste in the presence of superplasticizer[J]. ZKG International, 2015, 68(10): 36-46. (SCI, An4)

[23]  Zhang Yanrong, Kong Xiangming. Correlations of the dispersing capability of NSF and PCE type superplasticizers and their impacts on cement hydration with the adsorption in fresh cement pastes[J]. Cement and Concrete Research, 2015, 69: 1-9 (SCI, An1)

[24]  Zhang Yanrong, Kong Xiangming, Lu Zhenbao, et al. Effects of the charge characteristics of polycarboxylate superplasticizers on the adsorption and the retardation in cement pastes [J]. Cement and Concrete Research, 2015, 67: 184-196. (SCI, An1)

[25]  Zhang Yanrong, Kong Xiangming. Influences of superplasticizer, polymer latexes and asphalt emulsions on the pore structure and impermeability of hardened cementitious materials [J]. Construction and Building Materials, 2014, 53(28): 392-402. (SCI, An1)

[26]  Zhang Yanrong, Kong Xiangming. Influences of PCE superplasticizer on the pore structure and the impermeability of hardened cementitious materials [J]. Journal of Advanced Concrete Technology, 2014, 12: 443-455. (SCI, An4)

[27]  Kong Xiangming, Zhang Yanrong, Hou Shanshan. Study on the rheological properties of Portland cement pastes with polycarboxylate superplasticizers [J]. Rheologica Acta, 2013, 52(7): 707-718. (SCI, An3)

[28]  Zhang Yanrong, Kong Xiangming, Hou Shanshan, et al. Study on the rheological properties of fresh cement asphalt paste [J]. Construction and Building Material, 2012, 37(1): 534-544. (SCI, An1)

[29]  張豔榮，孔祥明，高亮*. 不同分散介質中新拌水泥漿體的微結構與流動性. 矽酸鹽學報, 2016, 44(8): 1103-1108.(EI)

[30]  孔祥明, 張豔榮, 張敬義, 等. 新拌水泥瀝青漿體的流動性及顯微結構的研究[J]. 建築材料學報, 2011, 14(4): 569-579. (EI)

[31]  張豔榮, 孔祥明, 曹恩祥, 等. 溫度對新拌水泥瀝青漿體流動性和水化速率的影響[J]. 矽酸鹽學報, 2010, 38(11): 156-161. (EI)

[32]  Liang Y, Cai X, Zhang Y, et al. Vibration reduction performance of rubber concrete backfill layer in high-speed railway tunnel[J]. Noise & Vibration Worldwide, 2019, 50(1): 22-32. (EI)

[33]  Hong Xiao, Jia-Bin Wang, Yanrong Zhang. The fractures of e-type fastening clips used in the subway: Theory and experiment. Engineering Failure Analysis, 2017, 81: 57–68. (SCI, An3)

[34]  Xu Y, Gao L, Zhang Y, et al. Discrete element method analysis of lateral resistance of fouled ballast bed [J]. Journal of Central South University, 2016, 23(9): 2373-2381. (SCI, An4)

[30]  Zhong Y, Gao L*, Zhang Y R. Effect of daily changing temperature on the curling behavior and interface stress of slab track in construction stage, Construction and building materials, 2018. (SCI，An2)

[35]  Cai X*, Li D, Zhang Y R, et al. Experimental Study on the Vibration Control Effect of Long Elastic Sleeper Track in Subways [J]. Shock and Vibration, 2018, 2018. (SCI)

[36]  Kong X M, Liu Y L, Zhang Y R, et al. Influences of temperature on mechanical properties of cement asphalt mortars [J]. Materials and Structures, 2013. (SCI, An3)

[37]  Yang H L, Kong X M, Zhang Y R, et al. Mechanical properties of silica aerogels prepared from a mixture of TEOS and organo-alkoxysilanes of type R1SiX3 [J]. Journal of Wuhan University of Technology, Materials Science, 2013. (SCI, An4)

[38]  Kong X M, Wu C C, Zhang Y R, et al. Polymer modified mortar with gradient polymer distribution: preparation, permeability, and mechanical behavior [J]. Construction and Building Materials, 2013, 38: 195-203. (SCI, An2)

[39]  Liu Y L, Kong X M, Zhang Y R, et al. Static and dynamic mechanical properties of cement-asphalt composites [J]. Journal of Materials in Civil Engineering, 2012, 25(10): 1489-1497. (SCI, An3)

[40]  Yang H L, Kong X M, Zhang Y R, et al. Mechanical properties of polymer-modified silica aerogels dried under ambient pressure [J]. Journal of Non-Crystalline Solids. 2011, 357: 3447-3453. (SCI, An2)

[41]  Kong X M, Lu Z B, Zhang Y R, et al. Effect of organic grinding aids on cement properties and the analysis via organic cement chemistry [J]. Journal of the Chinese Ceramic Society, 2012, 40(1): 49-55. (EI)

[42]  曹恩祥, 張豔榮, 孔祥明. 減水劑作用下的新拌水泥漿體微結構模型[J]. 混凝土, 2012, 10. (中文核心期刊.)

[1]      張豔榮，張爽，吳楷，等，一種混凝土攪拌裝置，申請号：202320697594.0

[2]      張豔榮，張雪松，一種矽基密實劑及其制備方法和應用，申請号：202211531540.3

[3]      孫洪斌，姜金鳳，張豔榮，高亮，…李大林，一種高速鐵路用無切縫全斷面防水封閉結構，申請号：202320160997.1

[4]      孔祥明，張豔榮，于超，吳楷，一種瓷磚空鼓率自動檢測裝置及方法，申請号：202011595865.9

[5]      張豔榮，韓松，杜斌，姜金鳳，劉陳。一種高韌性超疏水裝配式混凝土預制闆，ZL202120612331.6 

[6]      張豔榮，于超，孔祥明，吳楷，張朝陽，尹健昊，一種瓷磚空鼓率自動檢測裝置，ZL202023247002.0 

[7]      張豔榮，高亮，姜金鳳，蔡小培，鐘陽龍，于超，李大林，一種高速鐵路無砟軌道路基全斷面防水封閉結構，專利号：ZL202121389280.1

Journal of Intelligent Construction期刊青年編委

Construction and Building Materials等期刊審稿人

中國建築學會建築材料分會防護與修複材料及應用技術專委會委員

中國電子顯微學會無機材料性能檢測技術學會專委會委員

中國建築學會有機固廢專業技術委員會委員