-
王俊傑
(清華大學教師)
鎖定
王俊傑為清華大學教師
[1]
,助理研究員
[1]
,碩士生導師
[1]
。王俊傑於2004年進入湖南大學土木工程系攻讀學士學位,2008年本科畢業後進入浙江大學土木工程系攻讀碩士學位,2011年3月研究生畢業後進入英國女王大學土木工程系攻讀博士學位,並於2015年獲得博士學位
[1]
。2016年進入紐約大學阿布扎比分校從事博士後工作
[2]
,於2020年2月正式進入清華大學工作
[3]
。從事低碳再生水泥、再生混凝土、地聚物混凝土等新型土木工程材料,混凝土耐久性,無損檢測設備研發,危險廢棄物處理,工業固廢回收利用,混凝土裂縫修復材料,新舊混凝土粘結材料等研究工作
[1]
。擔任Frontiers in Materials
[4]
、Advances in Materials Science and Engineering
[5]
、Materials
[6]
及Coatings
[7]
等期刊客座主編,International Journal of the Built Environment and Asset Management期刊編委
[8]
,Journal of Zhejiang University-Science A (Applied Physics & Engineering) 青年編委
[1]
,ASCE、RILEM、FIB international會員
[1]
。獲河南省教育廳科技成果獎二等獎
[1]
。主持國際工程諮詢項目“沙特SABIC一期維修諮詢項目”一項
[1]
,民航集團高高原機場道面混凝土耐久性及控制技術研究項目一項
[1]
,作為主編負責編制團體標準《再生骨料混凝土應用技術規程》
[1]
。
- 中文名
- 王俊傑
- 外文名
- Junjie Wang
- 國 籍
- 中國
- 民 族
- 漢族
- 畢業院校
-
英國女王大學
紐約大學阿布扎比分校
浙江大學
湖南大學 - 職 業
- 教師 [1]
王俊傑人物經歷
工作履歷:
202002-至今 清華大學 助理研究員,碩士生導師
201603-201908 紐約大學阿布扎比分校 博士後
教育背景:
200408-200806 湖南大學 土木工程 學士
200808-201103 浙江大學 土木工程 碩士
201103-201507 英國女王大學 土木工程 博士
王俊傑研究方向
低碳再生水泥、再生混凝土、地聚物混凝土等新型土木工程材料,混凝土耐久性,無損檢測設備研發,危險廢棄物處理,工業固廢回收利用,混凝土裂縫修復材料,新舊混凝土粘結材料等
王俊傑開授課程
大學生研究訓練SRT
本科生綜合論文訓練
王俊傑主要成就
[1] Lei Xu, JunjieWang*, Kefei Li, Molan Li, Siyu Lin, Tingyu Hao, Tingyu Wang,Yaopu Guo,Zheng Ling. 2023. Investigations on the rehydration of recycled blended SCMscement. Cement and Concrete Research, Vol. 163, 107036. (IF = 11.958, Q1, TOP期刊).
[2] Zhen Li,Xiaoyu Chen, Shuai Tang, Dong Xiang*, Eileen Harkin-Jones, Yong Chen, ChunxiaZhao, Hui Li, Ping Wang, Lihua Zhou, Junjie Wang*, Yuntao Li, YuanpengWu. 2023. Enhanced sensing performance of flexible strain sensors prepared frombiaxially stretched carbon nanotubes/polydimethylsiloxane nanocomposites. PolymerEngineering and Science. (Co-corresponding author), (IF = 2.573, Q2).
[3] Molan Li, YongLai, Daoxun Ma, Junjie Wang*, Lei Xu, Zhibin Gao, Yan Liu, Le Li, YaopuGuo, Lifan Zheng and Yi Zhang. 2023. Influence of Combined Air-EntrainingSuperplasticizer and Surface Treatments on Airport Pavement Concrete againstSalt Freezing. Coatings, 13(2) 372. (Corresponding author), (IF = 3.236,Q2).
[4] Lei Xu, JunjieWang*, Kefei Li, Siyu Lin, Molan Li, Tingyu Hao, Zheng Ling, Dong Xiang, TingyuWang. 2022. A systematic review of factors affecting properties ofthermal-activated recycled cement. Resources, Conservation & Recycling, Vol.185, 106432. (Corresponding author)(IF = 13.716, Q1, TOP期刊).
[5] Junjie Wang, Yuli Wang, Jie Yu, Lei Xu, Molan Li, JiahuiCheng, Zhe Li. 2022. Effects of sodium sulfate and potassium sulfate on theproperties of calcium sulfoaluminate (CSA) cement based grouting materials. Constructionand Building Materials, Vol. 353, 129045. (IF =7.693, Q1, TOP期刊).
[6] Yuli Wang,Jie Yu, Junjie Wang*, Dong Xiang, Hui Gu, Jiahui Cheng. 2022. Effects ofsodium aluminate and quicklime on the properties of CSA grouting materials. Journal of Building Engineering, Vol. 58, 105060. (Corresponding author), (IF =7.144, Q1).
[7] Junjie Wang, Lei Xu, Molan Li, Hang He, Yuli Wang*, DongXiang, Siyu Lin, Yu Zhong, Hanyi Zhao. 2022. Effect of pre-carbonation on theproperties of cement paste subjected to high temperatures. Journal of Building Engineering, Vol. 51, 104337. (IF = 7.144, Q1).
[8] Yuli Wang,Hang He, Junjie Wang*, Fanghui Li, Yahong Ding, Lei Xu. 2022. Effect ofaggregate micro fines in machine-made sand on bleeding, autogenous shrinkageand plastic shrinkage cracking of concrete. Materials and Structures, Vol. 55,106. (Corresponding author), (IF = 4.285, Q1).
[9] Jianhe Xie,Junjie Wang*, Molan Li, Lei Xu, Dong Xiang, Yuli Wang, Hang He, Yi Zhu, JinxiaZhao. 2022. Estimation of chloride diffusion coefficient from waterpermeability test of cementitious materials. Construction and BuildingMaterials, Vol. 340, 127816. (Corresponding author), (IF = 7.693, Q1, TOP期刊).
[10] Jianhe Xie,Jianbai Zhao, Junjie Wang*, Chi Fang, Bing Yuan, Yanhai Wu. 2022. Impactbehaviour of fly ash and slag-based geopolymeric concrete: The effects ofrecycled aggregate content, water-binder ratio and curing age. Construction andBuilding Materials, Vol. 331, 127359. (Corresponding author), (IF = 7.693, Q1, TOP期刊).
[11] Libing Liu,Dong Xiang*, Xiangxia Zhang, Eileen Harkin-Jones, Junjie Wang*, ChunxiaZhao, Hui Li, Zhenyu Li, Li Wang, Ping Wang, Yuntao Li, Yuanpeng Wu*. 2022. Highlysensitive flexible strain sensor based on carbon nanotube/styrene butadienestyrene@ thermoplastic polyurethane fiber with a double percolated structure.Polymer Engineering and Science, 63(1) 206-218. (Co-correspondingauthor), (IF = 2.573,Q2).
[12] Junjie Wang, Lei Xu, Jiatong Guo, Yimu Jiang, Hang He,Yuli Wang*, Weiqi Fu, Yi Zhu, Zhe Ye, Pukang He and Yi Zhang. 2022. Effect ofPhaeodactylum tricornutum in seawater on the hydration of blended cement pastes.Coatings, 12(11), 1639. (IF = 3.236, Q2).
[13] Lei Xu,Yong Lai, Daoxun Ma, Junjie Wang*, Molan Li, Le Li, Zhibin Gao, Yan Liu,Pukang He and Yi Zhang. 2022. Effects of Fiber and Surface Treatment on AirportPavement Concrete against Freeze–Thawing and Salt Freezing. Materials, 15(21),7528. (Corresponding author), (IF = 3.748, Q2).
[14] Dong Xiang,Xiaoyu Chen, Jiayi Li, Yuanpeng Wu, Chunxia Zhao, Hui Li, Zhenyu Li, Li Wang,Ping Wang, Yuntao Li, Junjie Wang*. Flexible strain sensors with highsensitivity and large working range prepared from biaxially stretched carbonnanotubes/polyolefin elastomer nanocomposites. Journal of Applied PolymerScience, 140(4), e53371. (Corresponding author), (IF = 3.057, Q2).
[15] Junjie Wang*. 2022. Effective coating system should beapplied to concrete with recycled waste materials. Coatings, 12(8), 1133. (IF = 3.236, Q2).
[16] Jianhe Xie, JianbaiZhao, Junjie Wang*, PeiyanHuang, Junfeng Liu. 2021. Investigation of the high-temperature resistance ofsludge ceramsite concrete with recycled fine aggregates and GGBS and itsapplication in hollow blocks. Journal of Building Engineering, Vol. 34, 101954. (Corresponding author), (IF =7.144, Q1).
[17] Junjie Wang, Jianhe Xie*, Yuli Wang, Yongliang Liu, YahongDing. 2020. Rheological properties, compressive strength, hydration productsand microstructure of seawater-mixed cement pastes. Cement and ConcreteComposites, Vol.114, 103770. (IF = 9.93, Q1, TOP期刊).
[18] Yuli Wang, Yanchao Tian, JunjieWang*. 2020. Effects of carbide slag and CO2 curing on physicalproperties of gypsum plaster. ACI Materials Journal, Vol. 117, issue 5,169-178. (Corresponding author), (IF= 1.661, Q3).
[19] Junjie Wang, Jianhe Xie*, ChonghaoWang, Jianbai Zhao, Feng Liu, Chi Fang. 2020. Study on the optimum initial curing condition forfly ash and GGBS based geopolymer recycled aggregate concrete. Construction and BuildingMaterials, Vol.247, 118540. (Correspondingauthor). (IF = 7.693, Q1, TOP期刊).
[20] Junjie Wang, Jianhe Xie*, JianhuaHe, Mingwei Sun, Jian Yang, LijuanLi. 2020.Combined use of silica fume and steel fibre to improve fracture properties ofrecycled aggregate concrete exposed to elevated temperature. Journal of Material Cycles and Waste Management, Vol. 22, 862-877. (IF = 3.579, Q1).
[21] Hang He, YuliWang, Junjie Wang*. 2020. Compactness and hardened properties of machine-made sand mortar withaggregate micro fines. Construction and Building Materials. Vol.250, 118828. (Corresponding author), (IF =7.693, Q1, TOP期刊).
[22] Yuli Wang,Huijuan Lu, Junjie Wang*, Hang He.2020. Effects of highly crystalized nano C-S-H particles on performances of Portlandcement paste and its mechanism. Crystals. Vol. 10, issue 9, 816. (Correspondingauthor), (IF = 2.670,Q2).
[23] Jianhe Xie, Junjie Wang*, Yongliang Liu, Yuli Wang. 2020.Comparison of threedifferent methods for measuring chloride transport in predamaged concretes. Journal of Materials in Civil Engineering,Vol.32, Issue 4, 04020033. (Corresponding author). (IF = 3.651, Q1).
[24] Junjie Wang, Engui Liu*. 2020. Upcycling waste seashells with cement:rheology and early-age properties of Portland cement paste. Resources, Conservation & Recycling,Vol.155, 104680. (IF = 13.716, Q1, TOP期刊).
[25] Junjie Wang. Engui Liu*. 2020. The relationship betweensteady-state chloride diffusion and migration coefficients in cementitiousmaterials. Magazine of Concrete Research, Vol.72, Issue 19, pp 1016-1026. (IF =2.460, Q2).
[26] Junjie Wang, Engui Liu*, Liang Li. 2019. Characterizationon the recycling of waste seashells with Portland cement towards sustainablecementitious materials. Journal of Cleaner Production. Vol.220, pp 235-252. (IF = 11.072, Q1, TOP期刊).
[27] Jianhe Xie, Junfeng Liu, Feng Liu, Junjie Wang*, Peiyan Huang. 2019. Investigationof a new lightweight green concrete containing sludge ceramsite and recycledfine aggregates. Journal of Cleaner Production. Vol.235, pp 1240-1254. (Corresponding author). (IF =11.072, Q1, TOP期刊).
[28] Jianhe Xie, JunjieWang*, Rui Rao, Chonghao Wang, ChiFang. 2019. Effects of combined usage of GGBS and fly ash on workability andmechanical properties of alkali activated geopolymer concrete with recycledaggregate. Composites Part B: engineering. Vol.164, pp 179-190. (Corresponding author). (IF = 11.322,Q1, TOP期刊). (ESI高被引論文).
[29] Jianhe Xie, Wei Chen, Junjie Wang*, Chi Fang, Bingxue Zhang, Feng Liu. 2019.Coupling effects of recycled aggregate and GGBS/metakaolin on physicochemicalproperties of geopolymer concrete. Construction and Building Materials. Vol.226, pp 345-359. (Corresponding author), (IF = 7.693, Q1, TOP期刊).
[30] Jianhe Xie, JunjieWang*, Bingxue Zhang, Chi Fang, LijuanLi. 2019. Physicochemical properties of alkali activated GGBS and fly ashgeopolymeric recycled concrete. Construction and Building Materials. Vol.204,pp 384-398. (Corresponding author). (IF = 7.693, Q1, TOP期刊).
[31] Zhijun He,Xiaodong Zhu, Junjie Wang*, Mulan Mu, Yuli Wang. 2019. Comparison of CO2emissions from OPC and recycled cement production. Construction and BuildingMaterials. Vol. 211, pp 965-973. (Corresponding author). (IF = 7.693, Q1, TOP期刊).
[32] Yuli Wang, FengxiaHe, Junjie Wang*, ChengWang, Zuqiang Xiong. 2019. Effects of calcium bicarbonate on the properties ofordinary Portland cement paste. Construction and Building Materials. Vol.225,pp 591-600. (Corresponding author). (IF = 7.693, Q1, TOP期刊)
[33] Jianhe Xie, Jianbai Zhao, Junjie Wang*, Chonghao Wang, Peiyan Huang, Chi Fang. 2019.Sulfate resistance of recycled aggregate concretewith GGBS and fly ash-based geopolymer. Materials. Vol.12, Issue 8, 1247. (Corresponding author). (IF = 3.748, Q1).
[34] Yuli Wang,Jie Yu, Junjie Wang*, XuemaoGuan. 2019. Effects of aluminum sulfate and quicklime/fluorgypsum ratio on theproperties of calcium sulfoaluminate (CSA) cement based double liquid groutingmaterials. Materials. Vol.12, Issue 8, 1222. (Corresponding author). (IF = 3.748,Q1).
[35] Yuli Wang,Fengxia He, Junjie Wang*, QiankuHu. 2019. Comparison of effects of sodium bicarbonate and sodium carbonate onthe hydration and properties of Portland cement paste. Materials. Vol.12, Issue7, 1033. (Corresponding author). (IF = 3.748, Q1).
[36] Hang Hang, Yuli Wang, Junjie Wang*. 2019. Effects ofaggregate micro fines (AMF), aluminum sulfate and polypropylene fiber (PPF) onproperties of machine-made sand concrete. Applied sciences. Vol. 9, Issue 11,2250. (Corresponding author). (IF = 2.838, Q1).
[37] Junjie Wang, Engui Liu*, Liang Li. 2018. Multiscaleinvestigations on hydration mechanisms in seawater OPC paste. Construction andBuilding Materials, Vol.191, pp 891-903. (IF = 7.693, Q1, TOP期刊).
[38] Junjie Wang*, Mulan Mu,Yongliang Liu. 2018. Recycled cement, Construction and Building Materials, Vol.190,pp 1124-1132. (Corresponding author). (IF = 7.693, Q1, TOP期刊).
[39] Junjie Wang*. 2017. Steady-state chloride diffusioncoefficient and chloride migration coefficient of cracks in concrete. Journalof Materials in Civil Engineering, Vol.29, Issue 9, 0417117. (IF = 3.651, Q1).
[40] Junjie Wang, P.A. Muhammed Basheer*, Sreejith V.Nanukuttan, Adrian E. Long and Yun Bai. 2016. Influence of service loading andthe resulting micro-cracks on chloride resistance of concrete. Construction andBuilding Materials, Vol.108, pp 56-66. (IF = 7.693, Q1, TOP期刊).
[1] Kefei Li*,Jianguo Han,Shengnian Wang,HuizhenLian,Jianbo Xiong,Junjie Wang,Zhihong Fan,Lei Xu,Haiwei Zhu.Long-term performance of structural concretes in China southeast coastalenvironments exposed to atmosphere and chlorides. Cement and Concrete Research,Vol. 164, 107064. (IF = 11.958, Q1, TOP期刊).
[2] Pengfei Ma,Yi Zhang*, Kefei Li, Quanwang Li, Junjie Wang, Le Li, Ze Yuan. 2023. Smartdatabase design for concrete durability analysis - An application in theHongkong-Zhuhai-Macau bridge. Cement and Concrete Research, Vol. 163, 107033. (IF = 11.958, Q1,TOP期刊).
[3] Le Li*,Qinxi You, Wenfeng Liu, Qiang Zeng, Chunsheng Zhou, Junjie Wang, Zhe Li, KefeiLi. Enhanced flexural performances of cementitious composite beams withcontinuously graded steel fiber distribution. Materials & Design, Vol. 227,111728. (IF = 9.417, Q1, TOP期刊).
[4] Kefei Li*,Junjie Zeng, Luping Tang, Henrik Erndahl Sørensen, Pedro Castro Borges, MetteRica Geiker, Malene Thostrup Pedersen, Peng Zhang, Saarthak Surana, Riccardo Maddalena,Junjie Wang, Carmen Andrade, Véronique Baroghel-Bouny, FernandoMartirena-Hernández, Guoqing Geng, Konstantin Kovler, Shengnian Wang. 2022. Long-termfield exposure of structural concretes in marine environment: state-of-the-artreview by RILEM TC 289-DCM. Materials and Structures, Vol. 55, 205. (IF = 4.285,Q1).
[5] TaisenZhao, Yi Zhang*, Kefei Li and Junjie Wang. 2022. Probabilisticevaluation of chloride ingress process in concrete structures consideringenvironmental characteristics, Structural Engineering & Mechanics, 84(6), 831-849.(IF=2.998, Q1).
[6] Xiangyun Wang,Pengfei Li, Dong Xiang*, Bin Wang, Zhi Zhang, Jie Zhang, Chunxia Zhao, Hui Li,Wei Tan, Junjie Wang and Yuntao Li*. 2022. Influence ofhigh-temperature, high-pressure, and acidic conditions on the structure andproperties of high-performance organic fibers. Materials Testing, Vol. 64, Issue5, pp. 623-635. (IF=2.528, Q2).
[7] ChangruiShi, Huiquan Liu, Junjie Wang, Mingjun Yang, Jiafei Zhao, Lunxiang Zhang,Yongchen Song, Zheng Ling*. 2022. Vermiculite aerogels assembled fromnanosheets via metal ion induced fast gelation. Applied Clay Science, Vol. 218,106431. (IF=5.907, Q1, TOP期刊).
[8] Xuezhong Zhang,Dong Xiang*, Yuanpeng Wu, Eileen Harkin-Jones, Jiabin Shen, Yong Ye, Wei Tan, JunjieWang, Ping Wang, Chunxia Zhao, Yuntao Li. 2021. High-performance flexiblestrain sensors based on biaxially stretched conductive polymer composites withcarbon nanotubes immobilized on reduced graphene oxide. Composites Part A:Applied Science and Manufacturing, Vol. 151, 106665. (IF=9.463, Q1,TOP期刊).
[9] Mulan Mu, Chun-YenOu, Junjie Wang, Yongliang Liu*. 2020. Surface modification ofprototypes in fused filament fabrication using chemical vapour smoothing. AdditiveManufacturing, Vol.31, 100972. (IF=11.632, Q1, TOP期刊).
[10] Jianhe Xie, Liang Huang, Yongchang Guo*, Zhijian Li, Chi Fang, Lijuan Li, JunjieWang. 2018. Experimental study on the compressive and flexural behaviour ofrecycled aggregate concrete modified with silica fume and fibres. Constructionand Building Materials, Vol.178, pp 612-623. (IF =7.693, Q1, TOP期刊).
[11] Hailong Wang, Xiaoyan Sun*, JunjieWang, Paulo J.M. Monteiro. 2016. Permeability of concrete withrecycled concrete aggregate and pozzolanic materials under stress. Materials.Vol.9, Issue 4, pp 252. (IF = 3.748, Q1).
[12] Hailong Wang, JunjieWang, Xiaoyan Sun*, Weiliang Jin, 2013. Improving performance ofrecycled aggregate concrete with superfine pozzolanic powders. Journal ofCentral South University, Vol.20, pp 3715-3722. (IF = 2.392, Q2).
[1] Junjie Wang*, Recentadvances on research of sustainable materials in cementitious materials (Keynote talk), Webinar on Science,Engineering and Technology, 2022-1-26.
[2] Junjie Wang, Engui Liu*. Additions of different calcium carbonate minerals in cementto increase material greenness. Proceedings of the 1st International Conference on Innovation in Low-Carbon Cement & Concrete Technology ILCCC2019,24-26 June 2019, London, UK.
[3] Junjie Wang, Engui Liu*. Rheological and calorimetric behaviours of cement paste withSiO2 based and CaCO3 based mineral additions. Proceedingsof the 2nd International Conference on UHPC Materialsand Structures UHPC 2018, 7-10November 2018, Fuzhou, China. pp. 200-210.
[4] Junjie Wang, Sreejith V. Nanukuttan,P.A. MuhammedBasheer*, Yun Bai. Influenceof micro and macro cracks due to sustained loading on chloride-inducedcorrosion of reinforced concrete beams, Proc. Int. Conf. Durability Concr.Struct. , ICDCS. (2014) 1-9. 4th International Conference on the Durability ofConcrete Structures, July23–26, 2014, PurdueUniversity, West Lafayette, Indiana,USA (EI 收錄).
[5] Junjie Wang, P.A. MuhammedBasheer*, Sreejith V.Nanukuttan, Yun Bai. Monitoring the development of microcracks inreinforced concrete caused by sustained loading and chloride induced corrosion,Concr. Solutions - Proc. Concr. Solutions, Int. Conf. Concr. Repair. (2014)603-609. 5th International Conference onConcrete Repair, Belfast, United Kingdom (EI 收錄).
[6] Junjie Wang*, P.A. MuhammedBasheer, Sreejith V.Nanukuttan, Yun Bai. Influenceof cracking caused by structural loading on chloride-induced corrosion processin reinforced concrete elements: a review, Durability of Reinforced Concretefrom Composition to Protection, Springer, 2015, pp. 99-113. (6th International RILEM PhD Workshop, Delft, The Netherlands, July 4-5, 2013.)
[7] Junjie Wang, P.A. Muhammed Basheer*, Sreejith V. Nanukuttan, Yun Bai, Influence ofcompressive loading on chloride ingress through concrete.Proceedings of Civil Engineering Research in Ireland Conference, August 28-29,2014, Queen's University Belfast, Belfast, United Kingdom, pp.475-480.
[8] Junjie Wang, P.A. Muhammed Basheer*, Sreejith V. Nanukuttan, Yun Bai, Influence ofshort-time and sustained compressive loading on chloride migration in concrete.Cement and Concrete Science Conference 2013, September 2-3 2013, Portsmouth,United Kingdom.
[9] Junjie Wang, P.A. Muhammed Basheer*, Sreejith V. Nanukuttan, Yun Bai. Influence ofmicrocracking on water transport into reinforced concrete beam under sustainedbending. MC ITN TRANSCEND Conference, Water Transport in CementitiousMaterials, November 3-6, 2013, Guildford, UK.
[10] Hailong Wang, Junjie Wang, Xiaoyan Sun*, Juan Chen. Chloride diffusioncharacteristics of the new interface transition zone in recycled aggregateconcrete, Advanced Materials Research. 2011, Vol. 261-263, pp 104-110. (EI 收錄).
王俊傑科研項目
[1]國家自然科學基金委員會,青年項目,52008232,再生/普通水泥漿體與天然骨料/再生骨料/鋼筋粘結界面特性的表徵研究,2021-01至2023-12,24萬元,主持
[2]故宮博物院,國家科技部十三五重點研發子課題,2020YFC1522403-01,石質構件劣化與損傷程度檢測技術與方法研究,2020-10至2023-09,160萬元,主持
[3]國際工程諮詢項目,沙特SABIC一期維修諮詢項目,2022-3至2022-12,120萬元,主持
[4]西藏山南隆子機場諮詢項目,高高原機場道面混凝土耐久性及控制技術研究, 2020-11至2023-9,62萬元,主持
[5]國家自然科學基金委員會,重點項目,52038004,現代混凝土結構多屏障耐久性設計與控制理論方法研究,2021-01-01至2025-12-31,300萬元,參與
[6]國家自然科學基金委員會,面上項目,42274062,基於貝葉斯多模型推測的地震破裂機制量化研究,2023-01-01至2026-12-31,56萬元,參與
[7]中交水運規劃設計院有限公司,平陸運河工程兩階段勘察設計第一標段馬道樞紐船閘結構選型與設計,2022-12至2023-11,99萬元,參與
[8]中交四航工程研究院有限公司,沿江高速前海段與南坪快速銜接工程跨海灣隧道混凝土結構耐久性論證分析,2021-10至2021-12, 30萬元,參與
[9]自主科研項目,颱風災害對近海城市經濟影響研究,2021-04至2023-03, 20萬元,參與
[10]重點實驗室開放基金,基於機器視覺的水工結構無標靶快速無損檢測方法,2022-01至2023-12,10萬元,參與
[11]國家科技部, 十三五重點研發課題,2019YFB1600702,跨海集羣設施服役狀態評估及智能維養技術與裝備(所屬項目:港珠澳大橋智能化運維技術集成應用),11839.5萬元, 2019-12至2022-11,參與
[12]港珠澳大橋管理局諮詢項目,混凝土結構耐久性智能數據庫與模型庫,2020-10至2022-10,145萬元,參與
[13]港珠澳大橋管理局諮詢項目,混凝土結構耐久性智能評估系統開發,2020-08至2022-12,99萬元,參與
[14]浙江省交通運輸廳,科研計劃項目,東海海域跨海工程全壽命分析與耐久性控制關鍵技術研究,2018-08至2020-12,397.5萬元,參與
[15]Engineering and Physical Sciences Research Council, UK-China Bridge in Sustainable Energy and Built Environment (EP/G042594/1). 2011-03至2015-07,參與
[16]New York University Abu Dhabi, New York University Research start-up fund (76-71280-ADHPG-ADH01-AD136). 2016-03至2019-08,參與
王俊傑社會任職
[1]教育部學位中心學位論文評審專家
[2]青年編委,Journal of Zhejiang University-Science A (Applied Physics & Engineering)
[3]編委,International Journal of the Built Environment and Asset Management
[4]編委,Frontiers in Built Environment
[5]AEIC annual academic member
[6]Lead guest editor and topic editor, SCI 期刊Materials
[7]Lead guest editor, SCI 期刊Frontiers in Materials
[8]Lead guest editor and topic editor, SCI 期刊Coatings
[9]Lead guest editor, SCI 期刊Advances in Materials Science and Engineering
[10]RILEM高級會員
[11]ASCE會員
[12]FIB International會員
[13]Global Cement and Concrete Association (GCCA) 會員
[14]中國建築學會會員
[15]固廢分會冶金渣學術委員會會員
[16]歐美同學會留英分會會員
王俊傑主編標準
[1]土木工程學會標準《再生骨料混凝土應用技術規程》
王俊傑參與編制標準
[1]土木工程學會標準《混凝土結構耐久性技術指南》(CCES01-2022)
[2]土木工程學會標準《混凝土構件表層緻密性無損檢測技術標準》
[3]中國建築材料協會標準 《預製建築構件耐久性評價技術要求》
[4]中國工程建設標準化協會標準 《清水混凝土應用技術規程》
[5]中國工程建設標準化協會標準 《清水混凝土修補與防護應用技術規程》
王俊傑期刊審稿人
[1]Cement and Concrete Research
[2]Resources, Conservation & Recycling
[3]Journal of Cleaner Production
[4]Journal of Environmental Management
[5]Waste management
[6]Construction and Building Materials
[7]Journal of Materials in Civil Engineering
[8]Environmental Impact Assessment Review
[9]Materials and Structures
[10]Structural Concrete
[11]Journal of Sustainable Cement-Based Materials
[12]Analytical Letters
[13]Journal of Building Engineering
[14]International Journal of Concrete Structures and Materials
[15]ACI Materials Journal
[16]Materials
[17]Polymers
[18]Coatings
[19]Buildings
[20]Applied Sciences
[21]Sustainability
[22]Minerals
[23]Monatshefte für Chemie - Chemical Monthly
[24]Sustainable Materials and Technologies
[25]Materials Chemistry and Physics
[26]Advanced composites letters
[27]Materials Today: Proceedings
[28]Materials Today Communications
[29]Journal of the Chinese Chemical Society
[30]Acta Geotechnica
[31]Advances in Materials and Processing Technologies
[32]Journal of Materials Research and Technology
[33]Sustainable Chemistry and Pharmacy
[34]Cement
[35]《複合材料學報》
- 參考資料
-
- 1. 清華大學土木水利學院 .清華大學土木水利學院王俊傑個人主頁(科研項目裏第3項)[引用日期2023-03-09]
- 2. NYU Abu Dhabi .NYU Abu Dhabi - Junjie Wang[引用日期2020-04-16]
- 3. School of Civil Engineering Tsinghua University .王俊傑老師主頁[引用日期2020-04-18]
- 4. Low Carbon Emissions, Carbonation Fixation and High Energy Efficiency in Building Related Materials | Frontiers Research Topic .Frontiers in Materials[引用日期2023-03-18]
- 5. Micromechanical Properties of Construction and Building Materials 2022 .Advances in Materials Science and Engineering[引用日期2023-03-18]
- 6. Materials | Special Issue : Sustainable Cementitious Materials for Civil and Transportation Engineering .Materials[引用日期2023-03-18]
- 7. Coatings | Special Issue : Effective Coating Barriers for Protection of Reinforced Concrete .Coatings[引用日期2023-03-18]
- 8. International Journal of the Built Environment and Asset Management .Inderscience[引用日期2023-03-18]
