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📜 发表论文清单

[87] 陈柯宇, 张抒扬, 闵万林, 吴柯娴，夏晋*. 树脂基改性玄武岩纤维增韧海水-海砂早强水泥砂浆性能[J]. 硅酸盐学报. 2024(录用)

[86] 夏晋*, 郑宇航, 吴仁杰, 陈柯宇, 赵羽习, 金伟良. 尺寸效应对Wenner技术测量混凝土电阻率影响研究[J]. 建筑结构学报. 2024(录用)

[85] 吴仁杰，夏晋*，毛江鸿，金伟良，王金权. 基于环境作用效应的海洋混凝土结构暴露区域划分方法[J]. 建筑结构学报. 2024(录用)

[84] Xia J, Chen J.J.*, He X.Y., Chen K.Y., Jin W.L. Comparative analysis of microdamage-affected chloride transport in concrete under static and dynamic hydraulic pressure[J]. Journal of Building Engineering. 2024, 110184. https://doi.org/10.1016/j.jobe.2024.110184. IF=6.400

[83] Min W.L., Jin W.L., He X.Y., Wu R.J., Chen K.Y., Chen J.J., Xia J.* Experimental study on the flexural fatigue performance of slag/fly ash geopolymer concrete reinforced with modified basalt and PVA hybrid fibers[J]. Journal of Building Engineering. 2024, 94, 109917. https://doi.org/10.1016/j.jobe.2024.109917. IF=6.400

[82] Xia J.*, Chen J.J., Liu K.H., Peng Y. Theoretical modeling of concrete friction-impact deterioration using water-borne sand abrasion experiment[J]. Wear. 2024, 205382. https://doi.org/10.1016/j.wear.2024.205382

[81] Chen J.J., Xia J.*, Wu R.J., Peng Y. Influence of hydraulic pressure on pore structure evolution and chloride transport in concrete[J]. Magazine of Concrete Research. 2024, https://doi.org/10.1680/jmacr.23.00283

[80] 夏晋*，王洁，陈柯宇，赵羽习，金伟良. 基于延寿-减碳目标的混凝土结构耐久性控制策略研究[J]. 建筑结构学报. 2024, 45(03): 34-42. https://doi.org/10.14006/j.jzjgxb.2023.0057

[79] Chen J.J., Wu R.J., Chen K.Y., Wang Z.F., Xia J.* Influence of initial saturation degree on chloride transport in concrete under hydraulic pressure[J]. Journal of Building Engineering. 2024, 108897. https://doi.org/10.1016/j.jobe.2024.108897. IF=6.400

[78] Chen K.Y., Wang Y.Q., Min W.L., Chen J.J., Wu R.J., Peng Y., Zhao Y.X., Xia J.* Performance characteristics of micro fiber-reinforced ambient cured one-part geopolymer mortar for repairing[J]. Construction and Building Materials. 2024, 415, 135086. https://doi.org/10.1016/j.conbuildmat.2024.135086. IF=7.400

[77] Xia J., Wu R.J.*, Zhou Y., Wang X.P., Chen J.J., Min W.L., Chen K.Y., Jin W.L. Systematic framework for handling uncertainty in probabilistic failure analysis of corroded concretes[J]. Engineering Failure Analysis. 2024, 156, 107859. https://doi.org/10.1016/j.engfailanal.2023.107859. IF=4.000

[76] Chen K.Y., Xia J.*, Wang S.Q., Wu R.J., Min W.L., Wei J.Y., Hou D.S., Mu S. Insights on the chloride adsorption stability in cement mortar under current field and sulfate attack: From experiments to molecular dynamics simulation[J]. Cement and Concrete Composites. 2024, 46, 105375. https://doi.org/10.1016/j.cemconcomp.2023.105375. IF=10.500

[75] Xia J., Chen J.J.*, Shan K.Y., Wu Y.F. Seismic performance of corroded prefabricated column-footing joint with grouted splice sleeve connection: Experiment and simulation[J]. Journal of Building Engineering. 2023, 80, 108112. https://doi.org/10.1016/j.jobe.2023.108112. IF=6.400

[74] Shi J.H., Xia J.*, Wu R.J., Chen K.Y., Wang J., Hoo Y.Y. Non-destructive testing method of fiber content in steel fiber reinforced concrete based on magnetization loss[J]. Journal of Magnetism and Magnetic Materials. 2023, 586(15), 171205. https://doi.org/10.1016/j.jmmm.2023.171205. IF=2.700

[73] Wu R.J., Xia J.*, Mao J.H., Chen K.Y., Chen J.J., Jin W.L. Influence of stochastic chlorine environment on the spatiotemporal deterioration of marine RC structures[J]. Journal of Building Engineering. 2023, 76, 107085. https://doi.org/10.1016/j.jobe.2023.107085. IF=7.144

[72] Wu R.J., Xia J.*, Chen J.J., Chen K.Y., Zheng Y.H., Mao J.H., WANG J.Q., Jin W.L. Parametrized division of exposure zone for marine reinforced concrete structures with a multi-class Boosting method[J]. Engineering Structures. 2023, 285, 116079. https://doi.org/10.1016/j.engstruct.2023.116079. IF=5.582

[71] Wu R.J., Xia J.*, Chen K.Y., Chen J.J., Liu Q.F., Jin W.L. Spatiotemporal interpolation of surface chloride content for marine RC structures based on non-uniform spatiotemporal Kriging interpolation[J]. Structural Safety. 2023, 103, 102329. https://doi.org/10.1016/j.strusafe.2023.102329. IF=5.712

[70] Xia J., Chen J.J.*, Shen J., Zhong X.P., Liu Q.F. Influence of tensile stress on chloride-induced depassivation of carbon steel in simulated concrete pore solution[J]. Journal of Building Engineering. 2023, 69, 106298. https://doi.org/10.1016/j.jobe.2023.106298. IF=7.144

[69] Chen K.Y., Xia J.*, Wu R.J., Chen J.J., Hou D.H., Zhao Y.X., Jin W.L. Synthesis and reaction mechanism of geopolymer gels with increasing in calcium content: from experiments to molecular dynamics simulation[J]. ASCE - Journal of Materials in Civil Engineering. 2023, 35(10), 04023375. https://doi.org/10.1061/JMCEE7.MTENG-15903. IF=4.077

[68] Xia J., Chen K.Y.*, Hu S.T., Chen J.J., Wu R.J., Jin W.L. Experimental and numerical study on the microstructure and chloride ion transport behavior of concrete-to-concrete interface[J]. Construction and Building Materials. 2023, 367, 130317. https://doi.org/10.1016/j.conbuildmat.2023.130317. IF=7.693

[67] Xia J., Chen J.J.*, Li T., Shen J., Liu Q.F., Jin W.L. Modeling of corrosion mechanism of steel bars in chloride-contaminated concrete with transverse cracks[J]. Magazine of Concrete Research. 2023, 75(11): 580-594. https://doi.org/10.1680/jmacr.22.00227. IF=2.674

[66] Xia J., Chen K.Y.*, Wu Y.F., Xiao W.Q., Jin W.L., Zhang J. Shear fatigue behavior of reinforced concrete beams produced with manufactured sand as alternatives for natural sand[J]. Journal of Building Engineering. 2022, 62, 105412. https://doi.org/10.1016/j.jobe.2022.105412. IF=7.144

[65] Chen K.Y., Xia J.*, Wu R.J., Shen X.Y., Chen J.J., Zhao Y.X., Jin W.L. An overview on the influence of various parameters on the fabrication and engineering properties of CO2-cured cement-based composites[J]. Journal of Cleaner Production. 2022, 366, 132968. https://doi.org/10.1016/j.jclepro.2022.132968. IF=11.072

[64] Meng Z.Z., Liu Q.F.*, Xia J., Cai Y.X., Zhu X.J., Zhou Y., Pel L. Mechanical–transport–chemical modeling of electrochemical repair methods for corrosion-induced cracking in marine concrete[J]. Computer-Aided Civil and Infrastructure Engineering. 2022, 366, 132968. https://doi.org/10.1111/mice.12827. IF=10.632

[63] Wu R.J., Xia J.*, Cheng X., Liu K.H., Chen K.Y., Liu Q.F., Jin W.L. Effect of random aggregate distribution on chloride-induced corrosion morphology of steel in concrete[J]. Construction and Building Materials. 322, 2022, 9991434. https://doi.org/10.1016/j.conbuildmat.2022.126378. IF=6.141

[62] Wu X.H., Wang Y.F., Chen J.J.*, Cheng X and Xia J. Comparison of electrochemical chloride extraction models for reinforced concrete structures based on multiple potential theories[J]. Advances in Materials Science and Engineering. 2022, 322, 126378. https://doi.org/10.1155/2022/9991434. IF=1.726

[61] Xia J.*, Shen J., Li T., Fang J. X., Jin W. L. Corrosion prediction models for steel bars in chloride-contaminated concrete: a review[J]. Magazine of Concrete Research. 2022, 74(3), 123-142. https://doi.org/10.1680/jmacr.20.00106. IF=2.088

[60] Cheng X., Xia J.*, Wu R.J., Jin W.L., Pan C.G. Optimisation of sacrificial anode cathodic protection system in chloridecontaminated reinforced concrete structure[J]. Journal of Building Engineering. 2022, 45, 103515. https://doi.org/10.1016/j.jobe.2021.103515. IF=5.318

[59] 吴柯娴，金伟良*，沈坚，张大伟，夏晋. 工程项目社会影响评估和社会成本分析[J]. 土木工程学报，2022，55(01): 117-128. https://doi.org/10.15951/j.tmgcxb.2022.01.009. IF=5.318

[58] 张雪锋，李丕伟，夏晋*，甘润立，金伟良. 锈蚀钢筋套筒灌浆连接混凝土结合界面直剪性能试验研究[J]. 建筑结构. 2021，52(1), 120-126.

[57] 单旷怡，李天，严传标，胡家元，夏晋*. 塔脚腐蚀对输电铁塔安全性能的影响[J]. 腐蚀与防护. 2021，42(3): 28-33+63.

[56] Xia J.*, Shan K.Y., Wu X.H., Gan R.L., Jin W.L. Shear-friction behavior of concrete-to-concrete interface under direct shear load[J]. Engineering Structures. 2021, 238, 112211. https://doi.org/10.1016/j.engstruct.2021.112211. IF=3.548

[55] Cheng X., Xia J.*, Wang W. L., Jin S. J., Huang N., Jin W. L. Numerical modeling of the effect of concrete porosity evolution on electrochemical chloride removal from concrete structures[J]. Construction and Building Materials. 2021, 267, 120929. https://doi.org/10.1016/j.conbuildmat.2020.120929. IF=4.419

[54] Xu X.Y., Zhao Y.X.*, Xia J. Effect of stirrups on concrete crack propagation induced by steel bar corrosion[C]. Bridge Maintenance, Safety, Management, Life-Cycle Sustainability and Innovations - Proceedings of the 10th International Conference on Bridge Maintenance, Safety and Management, 2021, pp. 2052 - 2058. https://doi.org/10.1201/9780429279119-279.

[53] Liu Q.-F.*, Šavija B., Xia J., Lin X., Hou D. Modelling and Simulation for Concrete Durability: Mechanism and Prediction[J]. Modelling and Simulation in Engineering. 2021, 2021, 9782710. https://doi.org/10.1155/2021/9782710. IF=2.248

[52] Gong F., Wang Z.*, Xia J., Maekawa K. Coupled thermo-hydro-mechanical analysis of reinforced concrete beams under the effect of frost damage and sustained load[J]. Structural Concrete. 2021, 22(06), 3430-3445. https://doi.org/10.1002/suco.202100170. IF=3.131

[51] 钟小平*，戴仁礼，袁承斌，夏晋，彭蓝鸽. 氯盐环境下钢筋锈蚀损伤混凝土应力-应变本构模型[J]. 建筑材料学报. 2021, 24(04): 788-793. https://doi.org/10.3969/j.issn.1007-9629.2021.04.016

[50] Shan K. Y., Wang W. L., Liu X. G., Tao L., Xia J.*, Jin W. L. Direct shear behavior of sleeve-grouting concrete interface with corroded reinforcement[C]. Proceedings of the fib Symposium 2020: Concrete Structures for Resilient Society 2020, 1578-1585.

[49] Xia J.*, Li T., Shen J., He X.Y., Xu X.M., Jin W.L. Influence factors on steel corrosion morphology in chloride contaminated concrete[C]. Proceedings of the fib Symposium 2020: Concrete Structures for Resilient Society 2020, 1907-1915.

[48] 夏晋*，吴仁杰，金伟良，毛江鸿，赵羽习，王伟力. 机制砂钢筋混凝土梁的徐变特性[J]. 建筑结构学报. 2020, 41(S2): 227-234. https://doi.org/10.14006/j.jzjgxb.2020.S2.0025

[47] 何晓宇，李天，沈坚，张亚军，夏晋*，金伟良. 海洋生物附着对混凝土结构耐久性能影响[J]. 水利水运工程学报，2020(5): 116-123.

[46] Fan W.J., Mao J.H.*, Jin W.L., Xia J., Zhang J., Li Q. Repair effect of bidirectional electromigration rehabilitation on concrete structures at different durability deterioration stages[J]. Construction and Building Materials. 2020, 251: 118872. https://doi.org/10.1016/j.conbuildmat.2020.118872. IF=4.046

[45] Zhang J., Mao J.H., Jin W.L., Fan W.J., Xia J., Xu Y.D., Li Q. Control of repair effect and hydrogen embrittlement risk by parameters optimization for BIEM[J]. Journal of Central South University. 2020, 27(8): 2408-2423. https://doi.org/10.1007/s11771-020-4458-z. IF=1.716

[44] Xia J.*, Cheng X., Liu Q., Xie H., Zhong X., Jin S., Mao J., Jin W. Effect of the stirrup on the transport of chloride ions during electrochemical chloride removal in concrete structures[J]. Construction and Building Materials. 2020, 250: 118898. https://doi.org/10.1016/j.conbuildmat.2020.118898. IF=4.046

[43] Zhang J., Jin W.L., Mao J.H.*, Xia J., Fan W.J. Determining the fatigue process in ribbed steel bars using piezomagnetism[J]. Construction and Building Materials. 2020, 239. https://doi.org/10.1016/j.conbuildmat.2019.117885. IF=4.046

[42] Mao J.H., Jin W.L., Zhang J., Xia J., Fan W.J., Xu Y.D. Hydrogen embrittlement risk control of prestressed tendons during electrochemical rehabilitation based on bidirectional electro-migration[J]. Construction and Building Materials. 2019, 213: 582-591. https://doi.org/10.1016/j.conbuildmat.2019.04.008. IF=4.046

[41] Mao L.X., Hu Z., Xia J., Feng G.L., Azim I., Yang J., Liu Q.F.* Multi-phase modelling of electrochemical rehabilitation for ASR and chloride affected concrete composites[J]. Composite Structures. 2019, 207: 176-189. https://doi.org/10.1016/j.compstruct.2018.09.063. IF=4.829

[40] Xia J.*, Li T., Fang J. X., Jin W. L. Numerical simulation of steel corrosion in chloride contaminated concrete[J]. Construction and Building Materials. 2019, 228. https://doi.org/10.1016/j.conbuildmat.2019.116745. IF=4.046

[39] 夏晋*，金世杰，何晓宇，徐小梅，金伟良. 电势条件对混凝土结构电化学修复数值模拟的影响[J]. 浙江大学学报:工学版. 2019, 53(12): 2298-2308. https://doi.org/10.3785/j.issn.1008-973X.2019.12.006

[38] 王坤，赵羽习*，夏晋. 混凝土结构锈裂形态试验研究及数值模拟[J]. 建筑结构学报. 2019, 40(7): 138-145. https://doi.org/10.14006/j.jzjgxb.2018.C398

[37] 夏晋*，徐彦帆，李天，赵羽习，金伟良. 机制砂钢筋混凝土梁受弯与受剪性能试验研究[J]. 建筑结构学报. 2019, 40(5): 71-79. https://doi.org/10.14006/j.jzjgxb.2019.05.006

[36] 元斐斌，金伟良，毛江鸿*，王金权，樊玮洁，夏晋. 基于双向电迁移的开裂混凝土除氯阻锈效果[J]. 浙江大学学报:工学版. 2019, 53(12): 2317-2324. https://doi.org/10.3785/j.issn.1008-973X.2019.12.008

[35] 王竹君，夏晋，金伟良*. 一种改进的工程结构全寿命设计理论指标体系[J]. 建筑结构学报. 2019, 40(1): 40-48. https://doi.org/10.14006/j.jzjgxb.2019.01.004

[34] 夏晋*，甘润立，方言，赵羽习，金伟良. 装配式结构套筒灌浆连接的混凝土结合界面直剪性能试验研究[J]. 浙江大学学报(工学版). 2019, 54(9): 491-520. https://doi.org/10.3785/j.issn.1008-973X.2020.03.009

[33] Liu Q. F.*, Mao L. X., Hu Z., Xia J., Feng G. L., Li L. Y. A "double-multi" model for electromigration of lithiums and chlorides in asr affected concrete[C]. the 6th International Conference on the Durability of Concrete Structures, ICDCS 2018, Leeds, United Kingdom, 2018.

[32] Jiang W. Q., Shen X. H., Xia J., Mao L. X., Yang J., Liu Q. F.* A numerical study on chloride diffusion in freeze-thaw affected concrete[J]. Construction and Building Materials. 2018, 179: 553-565. https://doi.org/10.1016/j.conbuildmat.2018.05.209. IF=4.046

[31] Zhong X. P.*, Zhu J., Yuan C. B., Jin W. L., Xia J. Durability design based on serviceability stage for corroded reinforced concrete structures[C]. the 6th International Conference on the Durability of Concrete Structures, ICDCS 2018, Leeds, United Kingdom, 2018.

[30] Xia J.*, Liu Q. F., Mao J. H., Qian Z. H., Jin S. J., Hu J. Y., Jin W. L. Effect of environmental temperature on efficiency of electrochemical chloride removal from concrete[J]. Construction and Building Materials. 2018, 193: 189-195. https://doi.org/10.1016/j.conbuildmat.2018.10.187. IF=4.046

[29] Jin S., Xia J.*, Jin W. L., Yu Z. Y., Hu J. Y., Lyu Q., Zhong X. Efficiency of electrochemical chloride removal from concrete at different environmental temperatures[C]. the 6th International Conference on the Durability of Concrete Structures, ICDCS 2018, Leeds, United Kingdom, 2018.

[28] Hu Z., Mao L. X., Xia J., Liu J. B., Gao J., Yang J., Liu Q. F.* Five-phase modelling for effective diffusion coefficient of chlorides in recycled concrete[J]. Magazine of Concrete Research. 2018, 70(11): 583-594. https://doi.org/10.1680/jmacr.17.00194. IF=2.026

[27] Liu Q. F.*, Feng G. L., Xia J., Yang J., Li L. Y. Ionic transport features in concrete composites containing various shaped aggregates: a numerical study[J]. Composite Structures. 2018, 183(1): 371-380. https://doi.org/10.1016/j.compstruct.2017.03.088. IF=4.829

[26] 焦明远，金伟良，毛江鸿*，李腾，夏晋. 电化学修复过程混凝土内环境对钢筋表面析氢影响的实验研究[J]. 中国腐蚀与防护学报. 2018, 38(5): 463-470. https://doi.org/10.11902/1005.4537.2017.168

[25] 吴柯娴，金伟良*，夏晋. 荷载分项系数调整对砌体结构设计的影响[J]. 浙江大学学报：工学版. 2018, 52(10): 1901-1910. https://doi.org/10.3785/j.issn.1008-973X.2018.10.009

[24] 王海龙，祝玉麒，夏晋*，孙晓燕. 组合连接件对钢管-混凝土黏结性能的影响[J]. 浙江大学学报：工学版. 2018, 52(6): 1107-1113. https://doi.org/10.3785/j.issn.1008-973X.2018.06.009

[23] Xia J.*, Xi Y., Jin W. L. Temperature-dependent coefficient of thermal expansion of concrete in freezing process[J]. ASCE - Journal of Engineering Mechanics. 2017, 143(8). https://doi.org/10.1061/(ASCE)EM.1943-7889.0001256. IF=2.264

[22] Feng B., Xu Z., Xia J.*, Jin S., Jin W. Edge detection of concrete mesostructure based on DIS operator[C]. the 5th International Conference on the Durability of Concrete Structures, ICDCS 2016, Shenzhen, P.R.China, 2016.

[21] Xia J.*, Jin W. L., Li L. Y. Performance of corroded reinforced concrete columns under the action of eccentric loads[J]. ASCE - Journal of Materials in Civil Engineering. 2016, 28(1). https://doi.org/10.1061/(ASCE)MT.1943-5533.0001352. IF=4.077

[20] 金伟良，陈佳芸，毛江鸿，许晨，夏晋. 电化学修复对钢筋混凝土结构服役性能的作用效应[J]. 工程力学. 2016, 33(2): 1-10. https://doi.org/10.6052/j.issn.1000-4750.2015.06.ST06

[19] 徐亦冬，郑颖颖，毛江鸿，夏晋. 基于第一性原理的氯盐环境下混凝土中钢筋锈蚀特性分析[J]. 东南大学学报：自然科学版. 2016, 46(3): 619-623. https://doi.org/10.3969/j.issn.1001-0505.2016.03.027

[18] 毛江鸿，陈佳芸，崔磊，何勇，金伟良，夏晋，许晨. 氯盐侵蚀钢筋混凝土锈胀开裂监测及预测方法[J]. 建筑材料学报. 2016, 19(1): 59-64. https://doi.org/10.3969/j.issn.1007-9629.2016.01.010

[17] 毛江鸿，陈佳芸，崔磊，金伟良，夏晋，许晨，王小军. 氯盐侵蚀钢筋混凝土锈胀模型的动态修正[J]. 建筑材料学报. 2016, 19(3): 485-490. https://doi.org/10.3969/j.issn.1007-9629.2016.03.012

[16] Liu Q. F.*, Yang J., Xia J., Easterbrook D., Li L. Y., Lu X. Y. A numerical study on chloride migration in cracked concrete using multi-component ionic transport models[J]. Computational Materials Science. 2015, 99: 396-416. https://doi.org/10.1016/j.commatsci.2015.01.013. IF=2.644

[15] Zhong X.*, Jin W., Xia J. A time-varying model for predicting the life-cycle flexural capacity of reinforced concrete beams[J]. Advances in Structural Engineering. 2015, 18(1): 21-32. https://doi.org/10.1260/1369-4332.18.1.21. IF=1.320

[14] Li L. Y., Easterbrook D., Xia J.*, Jin W. L. Numerical simulation of chloride penetration in concrete in rapid chloride migration tests[J]. Cement and Concrete Composites. 2015, 63: 113-121. https://doi.org/10.1016/j.cemconcomp.2015.09.004. IF=6.257

[13] 毛江鸿，金伟良，张华，许晨，夏晋. 海砂混凝土建筑的耐久性提升技术及应用研究[J]. 中国腐蚀与防护学报. 2015, 35(6): 563-570. https://doi.org/10.11902/1005.4537.2014.123

[12] 许晨，金伟良，黄楠，吴航通，毛江鸿，夏晋. 双向电渗对钢筋混凝土的修复效果实验——保护层表面强度变化规律[J]. 浙江大学学报：工学版. 2015, 49(6): 1128-1138. https://doi.org/10.3785/j.issn.1008-973X.2015.06.018

[11] Xia J.*, Jin W. L. Prediction of corrosion-induced crack width of corroded reinforced concrete structures[C]. the 4th International Conference on the Durability of Concrete Structures, ICDCS 2014, Purdue, United States, 2014.

[10] Liu Q. F.*, Xia J., Easterbrook D., Yang J., Li L. Y. Three-phase modelling of electrochemical chloride removal from corroded steel-reinforced concrete[J]. Construction and Building Materials. 2014, 70: 410-427. https://doi.org/10.1016/j.conbuildmat.2014.08.003. IF=4.046

[9] Xia J., Jin W. L.*, Zhao Y. X., Li L. Y. Mechanical performance of corroded steel bars in concrete[J]. Proceedings of the Institution of Civil Engineers: Structures and Buildings. 2013, 166(5): 235-246. https://doi.org/10.1680/stbu.11.00048

[8] Xia J.*, Li L. Y. Numerical simulation of ionic transport in cement paste under the action of externally applied electric field[J]. Construction and Building Materials. 2013, 39: 51-59. https://doi.org/10.1016/j.conbuildmat.2012.05.036. IF=4.046

[7] Li L. Y., Xia J.*, Lin S. S. A multi-phase model for predicting the effective diffusion coefficient of chlorides in concrete[J]. Construction and Building Materials. 2012, 26(1): 295-301. https://doi.org/10.1016/j.conbuildmat.2011.06.024. IF=4.046

[6] Xia J.*, Jin W. L., Li L. Y. Effect of chloride-induced reinforcing steel corrosion on the flexural strength of reinforced concrete beams[J]. Magazine of Concrete Research. 2012, 64(6): 471-485. https://doi.org/10.1680/macr.10.00169. IF=2.026

[5] 武海荣，金伟良，延永东，夏晋. 混凝土冻融环境区划与抗冻性寿命预测[J]. 浙江大学学报(工学版). 2012, 46(04): 650-657. https://doi.org/10.3785/j.issn.1008-973X.2012.04.012

[4] 何勇，姜帅，毛江鸿，夏晋，金伟良. 结构裂缝的分布式光纤监测方法及试验研究[J]. 土木建筑与环境工程. 2012, 34(01): 1-6

[3] Xia J.*, Jin W. L., Li L. Y. Shear performance of reinforced concrete beams with corroded stirrups in chloride environment[J]. Corrosion Science. 2011, 53(5): 1794-1805. https://doi.org/10.1016/j.corsci.2011.01.058. IF=6.355

[2] 金立兵，金伟良，王海龙，夏晋. 多重环境时间相似理论及其应用[J]. 浙江大学学报(工学版). 2010, 44(04): 789-797. https://doi.org/10.3785/j.issn.1008-973X.2010.04.029

[1] 金伟良，夏晋，蒋遨宇，王海龙. 锈蚀钢筋混凝土梁受弯承载力计算模型[J]. 土木工程学报. 2009, 42(11): 64-70. https://doi.org/10.15951/j.tmgcxb.2009.11.005

🔖 参编标准清单

(27/40)国家标准：《既有混凝土结构耐久性评定标准》GB/T 51355-2019

(2/27)中国工程建设标准化协会标准：《混凝土结构耐久性电化学技术规程》T/CECS 565-2018

(3/32)中国电机工程学会标准：《输电线路铁塔混凝土保护帽技术规范》T/CSEE 0235-2021

(2/41)中国电力企业联合会标准：《输电杆塔地脚螺栓混凝土保护帽技术规范》T/CEC 562-2021

(3/38)中国电力企业联合会标准：《输电杆塔地脚螺栓混凝土保护帽质量检测技术规范》T/CEC 563-2021

(3/39)中国电力企业联合会标准：《输电杆塔混凝土保护帽内塔脚腐蚀检测技术规范》T/CEC 564-2021

(17/22)浙江省工程建设标准：《混凝土结构耐久性技术规程》DB 33T 1128-2016

(9/24)浙江省工程建设标准：《建筑施工扣件式钢管模板支架技术规程》DB 33T 1035-2018

📚 撰写专著清单

《混凝土结构耐久性电化学方法:防护、修复、提升和控制》

作者：金伟良; 夏晋; 毛江鸿

ISBN：9787030685766

出版社：科学出版社出版, 2021

《混凝土结构耐久性环境区划标准》

作者：金伟良; 武海荣; 吕清芳; 夏晋

ISBN：9787308191920

出版社：浙江大学出版社, 2019

💡 发明专利

(15) 国家发明专利：叶芳，赵鹏，于金山，王斌，周连升，于奔，郑中原，贺春，管森森，夏晋，吴仁杰，甘智勇，傅思伟，齐文艳，苏展. 一种混凝土内部抗裂钢丝网施工质量评定的无损检测方法，2023.07.28，ZL 202110838566.1

(14) 国家发明专利：吴小蕙，张章亮，王彦峰，王流火，陈辉祥，夏晋，王洁，车伟娴，李嘉杰，陈锟，郭金根，朱文卫，梁爱武，刘明. 一种普通环境下装配式混凝土及其结合界面设计方法，2022.05.17，ZL 202110387323.0

(13) 国家发明专利：吴小蕙，王彦峰，张章亮，王流火，陈辉祥，夏晋，胡淑婷，王洁，李嘉杰，蔡振华，车伟娴，雷翔胜，潘柏崇，王兴华. 一种氯盐环境作用下装配式混凝土及其结合界面设计方法，2022.03.04，ZL202110383512.0

(12) 国家发明专利：赵鹏，于金山，于奔，郝春艳，王斌，吴东，刘创华，夏晋，陈洁静，张锡祜，叶芳，傅思伟，黄磊，武爽，曹正，皮涛. 一种盐渍土环境混凝土埋置土壤层部位的除氯装置和方法，2022.02.22，ZL202111427421.9

(11) 国家发明专利：刘清风，毛丽璇，胡志，夏晋. 对碱骨料损伤和钢筋锈蚀双重劣化的电化学修复方法，2022.01.25，ZL202011165004. 7

(10) 国家发明专利：谢洪波，张雪锋，夏晋，胡淑婷，金伟良. 基于3D扫描重构混凝土表面三维粗糙度的测试方法，2021.08.03，ZL201911065766.7

(9) 国家发明专利：夏晋，沈健，谢洪波，胡家元，金伟良. ，2021.05.07，ZL201910345185.2

(8) 国家发明专利：夏晋，胡淑婷，金伟良. 一种混凝土表面三维粗糙度的测量方法，2020.11.13，ZL201911065755.9

(7) 国家发明专利：金伟良，毛江鸿，潘崇根，许晨，夏晋，徐方圆. 对钢筋混凝土结构电迁除氯时抑制氢脆的方法，2019.4.2，ZL201710005776.6

(6) 国家发明专利：夏晋，金世杰，金伟良，毛江鸿. 一种提升电化学修复混凝土效率的装置及方法，2019.4.2，ZL201611199386.9

(5) 国家发明专利：夏晋，徐彦帆，赵羽习，金伟良. 一种混凝土骨料单元的二维随机生成方法，2019.7.9，ZL201710150296.9

(4) 国家发明专利：毛江鸿，崔磊，金伟良，徐亦冬，俞凯奇，夏晋，许晨. 钢筋混凝土结构的氯离子浓度检测装置及其无损检测方法，2016.4.20，ZL201410828118.3

(3) 国家发明专利：金伟良，夏晋，郭柱，章思颖.一种两步法修复盐害混凝土结构的装置与方法，2013.7.24，ZL201210128147.X

(2) 国家发明专利：金伟良，夏晋，王海龙. 外置电极模拟混凝土中钢筋非均匀锈蚀的加速试验方法，2011.11.2，ZL201010039691.8

(1) 国家发明专利：金伟良，夏晋，王海龙. 内置电极模拟混凝土中钢筋非均匀锈蚀的加速试验方法，2010.1.15，ZL201010039690.3