施锦杰

时间:2024-08-23浏览:15867

 基 本 信 息


姓名:施锦杰

性别:

党派:中共党员

职称:副教授、博士生导师

联系方式:Emailjinjies@126.com 

 jinjies@seu.edu.cn

手机/微信号:13851402735




研究方向:

1. 低碳胶凝材料体系耐久性与工程应用

2. 耐蚀钢筋的腐蚀防护机理与工程应用

3. 绿色钢筋阻锈剂与智能自修复防腐体系研发


欢迎有土木工程、金属材料、建筑材料、高分子材料以及电化学背景的同学报考硕士或博士。

 个 人 简 介

江苏南通人,东南大学副教授,博士生导师,华英学者,仲英青年学者,新加坡国立大学访问学者。2011年博士毕业于东南大学材料学院,师从中国工程院院士孙伟教授。主要研究方向为混凝土中钢筋的腐蚀行为与腐蚀机理表征。主持完成国家自然科学基金2项,江苏省自然科学面上基金1项,参与了多项973计划与国家重点研发计划项目。

发表学术论文100余篇,其中,第一作者与通讯作者发表SCI论文58篇(包括:腐蚀防护顶刊Corrosion Science 14篇,水泥混凝土顶刊Cement and Concrete Composites 16篇,电化学领域顶刊Electrochimica Acta1篇,Construction and Building Materials 10篇,ASCE 8篇),一作与通讯作者发表EI论文18篇(包括:硅酸盐学报6篇,建筑材料学报4篇)。SCI论文累计影响因子超过400,他引1000余次,H因子282022年入选斯坦福大学全球前2%顶尖科学家榜单。

担任Corrosion Science, Cement and Concrete Composites, Electrochimica Acta, Applied Surface Science, Progress in Organic Coatings, Composites Part B, Journal of Materials in Civil Engineering (ASCE), Engineering StructureConstruction and Building Materials,建筑材料学报,建筑结构学报,复合材料学报,工程力学等多个国内外学术期刊的论文评审专家。


学习与工作经历:

◆ 河海大学无机非金属材料专业(本科) 2002.9-2006.7 导师:蒋林华教授

◆ 东南大学材料科学与工程学院(硕博连读2006.9-2011.12)导师:孙院士

◆ 东南大学电子科学与工程学院(博士后:2011.12-2013.11

◆ 东南大学材料科学与工程学院  讲师2013.12-2017.3

◆ 东南大学材料科学与工程学院  副教授,硕士生导师2017.4-2019.4

◆ 东南大学材料科学与工程学院  副教授,博士生导师2019.4-至今)

2017.9-2018.8,江阴市华士镇党委副书记(挂职江苏省科技镇长团)

2020.1-2022.12,东南大学仲英青年学者

       2023.9-2024.9,新加坡国立大学访问学者(东南大学华英学者)


主持的科研项目:

[1]  国家自然科学青年基金钢筋-混凝土界面区缺陷对钢筋腐蚀行为的影响与修复方法研究51208098”,2013/01-2015/12

[2]  国家自然科学面上基金海洋环境下低合金钢筋在碱激发矿渣混凝土中的耐腐蚀性与腐蚀机理51678144”,2017/01-2020/12

[3]  江苏省自然科学基金面上项目碱激发胶凝材料中耐腐蚀钢筋的电化学行为与腐蚀产物研究BK20161420”,2016/07-2019/06

[4]  中国博士后科学基金特别资助“荷载与环境作用下耐蚀钢筋混凝土的劣化机理与服役寿命(2013T60490)”,2013/07-2014/06

[5]  中国博士后科学面上基金“低合金耐蚀钢筋在混凝土中的耐蚀机理与服役寿命预测2012M520975”,2012/09-2013/08

[6]  东南大学博士后重点资助计划A类资助耐蚀钢筋混凝土结构的耐蚀机理与服役寿命预测”。2012年。

[7]  高性能土木工程材料国家实验室2011年开放基金课题“氯盐与碳化对混凝土中钢筋锈蚀影响的差异性研究2011CEM002”。

[8]   江苏省土木工程材料重点实验室2012年开放基金课题“氯盐与碳化对模拟混凝土孔溶液中耐蚀钢筋的钝化与腐蚀行为的影响2012CEM04”。

[9]   东大-欧维姆预应力工程技术联合研究中心项目“后张预应力混凝土体系的电隔离性能研究”。2019-2020


参与的科研项目:

[1]  国家重点基础研究发展计划973项目(2009CB623200)“环境友好现代混凝土的基础研究”,2009.01-2013.12. 结题。

[2]  国家重点基础研究发展计划973项目(2015CB655100)“严酷环境下混凝土材料与结构长寿命的基础研究”,2015.01-2019.08. 结题。

[3]  国家重点研发计划项目(2018YFC0705800)“建筑工程现场工业化建造集成平台与装备关键技术开发”第六课题“建筑工程现场组装式大型3D打印设备及其3D打印技术”,2018-2022

[4]  国家重点研发计划项目(2021YFB3802000)“低环境负荷高性能胶凝材料关键制备技术与示范应用”第五课题“低环境负荷胶凝材料混凝土高性能化与工程应用”,2021-2025

[5]  国家自然科学基金国际-地区联合研究项目(51461135001)“生态低碳高耐久碱激发混凝土科学设计方法与应用基础研究”,2015.1-2017.12


科研成果汇总

1SCI论文(一作与通讯)

2024

[1] Liu Yongqi, Guan Xiangdong, Shi Jinjie*. Synergistic inhibition of molybdate and phytate on chloride-induced corrosion of carbon steel in simulated concrete pore solutions. Cement and Concrete Composites, 2024, 145, 105366.

[2] Li Wenxuan, Guan Xiangdong, Shi Jinjie*. Electrochemical behavior of zinc in alkali-activated fly ash solution. Cement and Concrete Composites, 2024, 146, 105395.

[3] Liu Yongqi, Shi Jinjie*. Recent progress and challenges of using smart corrosion inhibitors in reinforced concrete structures. Construction and Building Materials, 2024, 411, 134595.

[4] Liu Yongqi, Shi Jinjie*. Design of a smart protective coating with molybdate-loaded halloysite nanotubes towards corrosion protection in reinforced concrete. Cement and Concrete Composites, 2024, 147, 105419.

2023

[1] Guan Xiangdong, Shi Jinjie*. Protection of galvanized steel using benzotriazole as a corrosion inhibitor in simulated concrete pore solution and alkali-activated fly ash solution. Cement and Concrete Composites, 2023, 136, 104880.

[2] Zhou Xiaocheng, Li Man, Guan Xiangdong, Shi Jinjie*. Insights into the enhanced corrosion resistance of carbon steel in a novel low-carbon concrete with red mud and phytic acid. Corrosion Science, 2023, 211, 110903.

[3] Ming Jing, Zhou Xiaocheng, Jiang Linhua*Shi Jinjie*. Spontaneous passivation and passivity breakdown of a novel 10CrMo steel in simulated seawater concrete pore solutions. Electrochimica Acta, 2023, 463,142827.

[4] Geng Zhi, Yao Nan, Zhou Xiaocheng, Shi Jinjie*. Understanding the intrinsic effect of fly ash on passivity and chloride-induced corrosion of carbon steel and stainless steel in cement extract solutions. Cement and Concrete Composites, 2023, 143, 105236.

[5] Geng Zhi, Liu Yongqi, Shi Jinjie*. Electrochemical responses of carbon steel in ordinary Portland cement blended with calcium sulfoaluminate cement. Construction and Building Materials, 2023, 400, 132788.

[6] Liu Yongqi, Xiaocheng Zhou, Shi Jinjie*. A novel dual-functional pretreatment layer for carbon steel in chloride-contaminated concrete pore solutions. Construction and Building Materials, 2023, 408, 133704.

2022

[1]   Shi Jinjie*, Guan Xiangdong, Ming Jing, Zhou Xiaocheng. Improved corrosion resistance of reinforcing steel in mortars containing red mud after long-term exposure to aggressive environments. Cement and Concrete Composites, 2022, 130, 104522.

[2]   Shi Jinjie*, Wu Miao, Ming Jing. In-depth insight into the role of molybdate in corrosion resistance of reinforcing steel in chloride-contaminated mortars. Cement and Concrete Composites, 2022, 132, 104628.

[3]   Ming Jing, Zhou Xiaocheng, Zuo Haining, Jiang Linhua*, Zou Yiqing, Shi Jinjie*. Effects of stray current and silicate ions on electrochemical behavior of a high-strength prestressing steel in simulated concrete pore solutions. Corrosion Science, 2022, 197, 110083.

[4]   Ming Jing, Zhou Xiaocheng, Jiang Linhua*Shi Jinjie*. Corrosion resistance of low-alloy steel in concrete subjected to long-term chloride attack: Characterization of surface conditions and rust layers. Corrosion Science, 2022, 203, 110370.

[5]   Yao Nan, Zhou Xiaocheng, Liu Yongqi, Shi Jinjie*. Synergistic effect of red mud and fly ash on passivation and corrosion resistance of 304 stainless steel in alkaline concrete pore solutions. Cement and Concrete Composites, 2022, 132, 104637.

[6]   Liu Yongqi, Shi Jinjie*. Corrosion resistance of carbon steel in alkaline concrete pore solutions containing phytate and chloride ions. Corrosion Science, 2022, 205, 110451.

[7]   Ming Jing, Shi Jinjie*. Influence of surface condition, steel type, and alkaline solution on passivation capability of reinforcing steels. European Journal of Environmental and Civil Engineering, 2022, 26(6): 2304-2318.

[8] Zhou Xiaocheng, Yao Nan, Shi Jinjie*. Unraveling electrochemical performance of a 10CrMo steel in alkaline concrete pore solutions with red mud and ground granulated blast-furnace slag. Corrosion Science, 2022, 207, 110568.

[9] Liu Yongqi, Zhou Xiaocheng, Guan Xiangdong, Shi Jinjie*. Synergistic inhibition mechanism of phosphate and phytic acid on carbon steel in carbonated concrete pore solutions containing chlorides. Corrosion Science, 2022, 208, 110637.

2021

[1]   Shi Jinjie*, Wu Miao, Ming Jing. Long-term corrosion resistance of reinforcing steel in alkali-activated slag mortar exposure to marine environments. Corrosion Science, 2021, 179, 109175.

[2]   Shi Jinjie*, Li Man, Wu Miao, Ming Jing. Role of red mud in natural passivation and chloride-induced depassivation of reinforcing steels in alkaline concrete pore solutions. Corrosion Science, 2021, 190, 109669.

[3]   Wu Miao, Shi Jinjie*. Beneficial and detrimental impacts of molybdate on corrosion resistance of steels in alkaline concrete pore solution with high chloride contamination. Corrosion Science, 2021, 183, 109326.

[4]   Wu Miao, Ma Haifeng, Shi Jinjie*. Beneficial and detrimental effects of molybdate as an inhibitor on reinforcing steels in saturated Ca(OH)2 solution: Spontaneous passivation. Cement and Concrete Composites, 2021, 116, 103887.

[5]   Ming Jing, Wu Miao, Shi Jinjie*. Passive film modification by concrete carbonation: Re-visiting a corrosion-resistant steel with Cr and Mo. Cement and Concrete Composites, 2021, 123, 104178.

[6]   Wang Danqian, Wu Miao, Ming Jing, Shi Jinjie*. Inhibitive effect of sodium molybdate on corrosion behaviour of AA6061 aluminium alloy in simulated concrete pore solutions. Construction and Building Materials, 2021, 270, 121463.

[7]   Wang Danqian, Wu Miao, Ming Jing, Shi Jinjie*. Passivation and chloride-induced corrosion behaviour of aluminium alloys in pore solution of Portland cement paste. Journal of Materials in Civil Engineering (ASCE), 2021, 33(11): 04021301.

2020

[1]   Shi Jinjie*, Zou Yiqing, Ming Jing, Wu Miao. Effect of DC stray current on electrochemical behavior of low-carbon steel and 10%Cr steel in saturated Ca(OH)2 solution. Corrosion Science, 2020, 169, 108610.

[2]   Shi Jinjie*, Ming Jing, Wang Danqian, Wu Miao. Improved corrosion resistance of a new 6% Cr steel in simulated concrete pore solution contaminated by chlorides. Corrosion Science, 2020, 174, 108851.

[3]   Shi Jinjie*, Wu Miao, Ming Jing. Degradation effect of carbonation on electrochemical behavior of 2304 duplex stainless steel in simulated concrete pore solutions. Corrosion Science, 2020, 177, 109006.

[4]   Shi Jinjie*, Ming Jing, Wu Miao. Passivation and corrosion behavior of 2304 duplex stainless steel in alkali-activated slag materials. Cement and Concrete Composites, 2020, 108, 103532.

[5]   Shi Jinjie*, Ming Jing, Wu Miao. Electrochemical behavior and corrosion products of Cr-modified reinforcing steels in saturated Ca(OH)2 solution with chlorides. Cement and Concrete Composites, 2020, 110, 103587.

[6]   Wang Danqian, Ming Jing, Shi Jinjie*. Enhanced corrosion resistance of rebar in carbonated concrete pore solutions by Na2HPO4 and benzotriazole. Corrosion Science, 2020, 174, 108830.

[7]   Wu Miao, Ma Haifeng, Shi Jinjie*. Enhanced corrosion resistance of reinforcing steels in simulated concrete pore solution with low molybdate to chloride ratios. Cement and Concrete Composites, 2020, 110, 103589.

[8]   Ming Jing, Shi Jinjie*, Sun Wei. Effects of mill scale and steel type on passivation and accelerated corrosion behavior of reinforcing steels in concrete. Journal of Materials in Civil Engineering (ASCE), 2020, 32(4): 04020029.

[9]   Ming Jing, Wu Miao, Shi Jinjie*. Corrosion resistance of a Cr-bearing low-alloy reinforcing steel: effect of surface condition, alkaline solution and chloride content. Journal of Materials in Civil Engineering (ASCE), 2020, 32(4): 04020034.

[10] Ming Jing, Shi Jinjie*. Chloride resistance of Cr-bearing alloy steels in carbonated concrete pore solutions. International Journal of Minerals, Metallurgy, and Materials, 2020, 27(4): 494-504.

2019

[1]   Ming Jing, Shi Jinjie*. Distribution of corrosion products at the steel-concrete interface: Influence of mill scale properties, reinforcing steel type and corrosion inducing method. Construction and Building Materials, 2019, 229, 116854.

2018

[1]   Shi Jinjie*, Ming Jing, Sun Wei. Electrochemical performance of reinforcing steel in alkali-activated slag extract in the presence of chlorides. Corrosion Science, 2018, 133: 288-299.

[2]   Shi Jinjie*, Ming Jing, Zhang Yamei, Jiang Jinyang. Corrosion products and corrosion-induced cracks of low-alloy steel and low-carbon steel in concrete. Cement and Concrete Composites, 2018, 88: 121-129.

[3]   Shi Jinjie*, Ming Jing, Sun Wei. Electrochemical behaviour of a novel alloy steel in alkali-activated slag mortars. Cement and Concrete Composites, 2018, 92: 110-124.

[4]   Shi Jinjie*, Wang Danqian, Ming Jing, Sun Wei. Long-term electrochemical behavior of low-alloy steel in simulated concrete pore solution with chlorides. Journal of Materials in Civil Engineering (ASCE), 2018, 30(4): 04018042.

[5]   Shi Jinjie*, Ming Jing, Sun Wei. Accelerated corrosion behavior of steel in concrete subjected to sustained flexural loading using electrochemical methods and X-ray computed tomography. Journal of Materials in Civil Engineering (ASCE), 2018, 30(7): 04018131.

[6]   Shi Jinjie*, Ming Jing, Sun Wei. Influence of surface condition on the electrochemical behavior of alloy steel in saturated Ca(OH)2 solution. Journal of Materials in Civil Engineering (ASCE), 2018, 30(9): 04018212.

[7]   Shi Jinjie*, Wang Danqian, Ming Jing, Sun Wei. Passivation and pitting corrosion behavior of a novel alloy steel (00Cr10MoV) in simulated concrete pore solution. Journal of Materials in Civil Engineering (ASCE): 2018, 30(10): 04018232.

[8]   Shi Jinjie*, Geng Guoqing, Ming Jing. Corrosion resistance of fine-grained rebar in mortars designed for high-speed railway construction. European Journal of Environmental and Civil Engineering, 2018: 22(5): 562-577.

[9]   Ming Jing, Shi Jinjie*, Sun Wei. Effect of mill scale on the long-term corrosion resistance of a low-alloy reinforcing steel in concrete subjected to chloride solution. Construction and Building Materials, 2018, 163: 508-517.

2017

[1]   Shi Jinjie*, Ming Jing. Influence of defects at the steel-mortar interface on the corrosion behavior of steel. Construction and Building Materials, 2017, 136: 118-125.

[2]   Shi Jinjie*, Ming Jing, Sun Wei, Zhang Yamei. Corrosion performance of reinforcing steel in concrete under simultaneous flexural load and chlorides attack. Construction and Building Materials, 2017, 149: 315-326.

[3]   Shi Jinjie*, Ming Jing, Sun Wei. Passivation and chloride-induced corrosion of a duplex alloy steel in alkali-activated slag extract solutions. Construction and Building Materials, 2017, 155: 992-1002.

[4]   Shi Jinjie*, Geng Guoqing. Electrochemical behavior of fine-grained steel in alkaline solutions in the presence of chlorides. Journal of Materials in Civil Engineering (ASCE), 2017, 29(7): 04017039.

[5]   Shi Jinjie*, Ming Jing. Influence of mill scale and rust layer on the corrosion resistance of low-alloy steel in simulated concrete pore solution. International Journal of Minerals, Metallurgy, and Materials, 2017, 24(1): 64-74.

[6]   Shi Jinjie*, Ming Jing. Liu Xin. Pitting corrosion resistance of a novel duplex alloy steel in alkali-activated slag extract in the presence of chloride ions. International Journal of Minerals, Metallurgy, and Materials, 2017, 24(10): 1134-1144.

2016

[1]   Shi Jinjie*, Sun Wei, Jiang Jinyang, Zhang Yamei. Influence of chloride concentration and pre-passivation on the pitting corrosion resistance of low-alloy reinforcing steel in simulated concrete pore solution. Construction and Building Materials, 2016, 111: 805-813.

2014

[1]   Shi Jinjie*, Sun Wei. Effects of phosphate on the chloride-induced corrosion behavior of reinforcing steel in mortars. Cement and Concrete Composites, 2014, 45: 166-175.

2012

[1]   Shi Jinjie, Sun Wei*. Electrochemical and analytical characterization of three corrosion inhibitors of steel in simulated concrete pore solutions. International Journal of Minerals, Metallurgy, and Materials, 2012, 19(1): 38-47.

2011

[1]   Shi Jinjie, Sun Wei*, Geng Guoqing. Influence of carbonation on the corrosion performance of steel HRB335 in simulated concrete pore solution(碳化对模拟混凝土孔溶液中HRB335钢腐蚀行为的影响)Acta Metall Sin金属学报, 2011, 47(1): 17-24.

[2]   Shi Jinjie, Sun Wei*, Geng Guoqing. Corrosion resistances of passive films on low-carbon rebar and fine-grained rebar in alkaline media(普通低碳钢与细晶粒钢钝化膜在碱性介质中的耐蚀性)Acta Metall Sin金属学报, 2011, 47(4): 449-454.

[3]   Shi Jinjie, Sun Wei*. Effect of benzotriazole as corrosion inhibitor for reinforcing steel in cement mortar(苯并三唑对水泥砂浆中钢筋的阻锈作用)Acta Physico-Chimica Sinica物理化学学报, 2011, 27(6): 1457-1466.

2Ei论文(一作与通讯)

[1]   周霄骋李曼施锦杰*柠檬酸钠对碱激发粉煤灰滤液中钢筋的阻锈机制. 硅酸盐学报, 2024, 52(2): 603-613.

[2] 明静施锦杰*孙伟混凝土中低合金钢筋腐蚀产物的微结构分析. 建筑材料学报, 2020, 23(2): 347-353.

[3]   刘新吴淼施锦杰*耐蚀钢筋在混凝土模拟液中的电化学行为. 东南大学学报(自然科学版), 2019, 49(3): 502-506.

[4]   施锦杰*明静王丹芊孙伟大气预锈对混凝土模拟液中低合金钢筋腐蚀行为的影响建筑材料学报, 2017, 20(2): 180-185.

[5]   施锦杰邓晨皓张亚梅*钢筋在碱激发矿渣砂浆中的早期腐蚀行为建筑材料学报, 2016, 19(6): 969-975.

[6]   施锦杰孙伟*弯曲荷载与氯盐耦合作用下混凝土中钢筋锈蚀程度评估硅酸盐学报, 2010, 38(7): 1201-1208.

[7]   施锦杰孙伟*混凝土中钢筋锈蚀研究现状与热点问题分析硅酸盐学报, 2010, 38(9): 1753-1764.

[8]   施锦杰孙伟*矿物掺合料与钢筋表面状态对砂浆中钢筋锈蚀的影响.硅酸盐学报, 2011, 39(1): 54-62.

[9]   施锦杰孙伟*用电化学阻抗谱与X射线CT研究混凝土中钢筋的腐蚀行为硅酸盐学报, 2011, 39(10): 1694-1700.

[10]   施锦杰孙伟*混凝土中钢筋腐蚀速率模型研究进展硅酸盐学报, 2012, 40(4): 620-630.

[11] 施锦杰孙伟氯离子电迁移作用下饱和Ca(OH)2溶液中钢筋的锈蚀行为东南大学学报(自然科学版), 2010, 40(6): 1298-1303.

[12] 施锦杰孙伟*耿国庆恒电流脉冲法研究钢筋在模拟混凝土孔溶液中的锈蚀行为北京科技大学学报, 2011, 33(6): 727-733.

[13] 施锦杰孙伟*耿国庆蒋金洋电化学方法研究混凝土模拟液中细晶粒钢的耐蚀性北京科技大学学报, 2011, 33(12): 1471-1477.

[14] 施锦杰孙伟*耿国庆模拟混凝土孔溶液对钢筋钝化的影响建筑材料学报, 2011, 14(4): 452-458.

[15] 施锦杰孙伟*电迁移加速氯离子传输作用下混凝土中钢筋锈蚀研究东南大学学报(自然科学版), 2011, 41(5): 1042-1047.

[16] 施锦杰孙伟*苯并三唑对模拟混凝土孔溶液中钢筋的阻锈作用功能材料, 2010,12(41): 2147-2150.

[17] Shi Jinjie, Sun Wei*. Effect of sulfate ions on the corrosion behavior of steel in concrete using electrochemical techniques. Advanced Materials Research, 2011, 163-167: 3049-3054.

[18] Shi Jinjie, Sun Wei*. Influence of cover porosity on steel corrosion in cement-based materials. Advanced Materials Research, 2011, 163-167: 3042-3048.

3)部分参与的论文

[1]   Zhang Qi, Feng Pan*, Shi Jinjie, Wang Haochuan. Controlled release of corrosion inhibitor from microwave-responsive capsules and anti-corrosion performance of steel bars. Corrosion Science, 2022, 207, 110572.

[2]   You Nanqiao, Shi Jinjie, Zhang Yamei*. Corrosion behaviour of low-carbon steel reinforcement in alkali-activated slag-steel slag and Portland cement-based mortars under simulated marine environment. Corrosion Science, 2020, 175, 108874.

[3]   You Nanqiao, Shi Jinjie, Zhang Yamei*. Electrochemical performance of low-alloy steel and low-carbon steel immersed in the simulated pore solutions of alkali-activated slag/steel slag pastes in the presence of chlorides. Corrosion Science, 2022, 205, 110438.

[4]   Jia Zijian, Chen Chun, Shi Jinjie, Zhang Yamei*, Sun Zhengming, Zhang Peigen. The microstructural change of C-S-H at elevated temperature in Portland cement/GGBFS blended system. Cement and Concrete Research, 2019, 123, 105773.

[5]   Yan Jian, Shi Jinjie, Zhang Peigen*, Tian Wubian, Zhang Yamei, Sun Zhengming*. Preparation and properties of epoxy/basalt flakes anticorrosive coatings, Materials and Corrosion, 2018, 69, 1669-1675.

[6]   Yang Li, Zhang Peigen*Shi Jinjie, Liang Ji, Tian Wubian, Zhang Yamei, Sun Zhengming*. Dual electrolytic plasma processing for steel surface cleaning and passivation. Journal of Materials Engineering and Performance, 2017, 26, 5009-5015.

[7]   张倩倩孙伟*施锦杰矿物掺合料对钢筋锈蚀临界氯离子含量的影响硅酸盐学报, 2010, 38(4): 633-637.

[8]   耿国庆施锦杰孙伟*混凝土模拟液中钢筋腐蚀电化学测试结果比较东南大学学报(自然科学版), 2011, 41(2): 382-386.

[9]   王丹芊施锦杰蒋金洋孙伟*低合金耐蚀钢筋在两种 pH 混凝土模拟孔溶液中的耐氯离子点蚀性能东南大学学报(自然科学版), 2015, 45(6): 1163-1168.

[10] Chen Mingzhi, Yang Kun, Wang Zhandong, Zhao Kai, Wu Erke, Shi Jinjie, Qi Huang, Sun Guifang*. Corrosion performance of NV E690 steel and 316L stainless steel coating fabricated by underwater direct metal deposition. Corrosion Science, 2023, 219: 111232.

[11] Chen Mingzhi, Wang Zhandong, Wu Erke, Yang Kun, Zhao Kai, Shi Jinjie, Sun Guifang*, Han En-Hou*. Electrochemical passivation behavior and surface chemistry of 316L stainless steel coatings on NV E690 steel fabricated by underwater laser direct metal deposition. Corrosion Science, 2024, 229: 111882.

[12] You Nanqiao, Li Baoliang, Cao Ruilin, Shi Jinjie, Chen Chun, Zhang Yamei*. The influence of steel slag and ferronickel slag on the properties of alkali-activated slag mortar. Construction and Building Materials, 2019, 227, 116614.

4)部分会议论文

[1]   Shi Jinjie, Sun Wei, Zhang Qianqian. Influence of cover zone pore structures and steel cement interface properties on the corrosion of steel in cement-based materials. EUROCORR2009, 2009. 9, Nice, France.

[2]   Shi Jinjie, Sun Wei. Corrosion behavior of pre-rusted and pre-passivated steel in mortar. Service Life Design, 2010.10, Delft, the Netherlands.

[3]   Shi Jinjie, Sun Wei. Steel corrosion monitoring in ordinary Portland concrete and high-performance concrete subjected to chloride and sulfate attack. The 7th international symposium on cement and concrete, 2010.5, Jinan, China.

[4]   Shi Jinjie, Sun Wei. Characterization of the steel corrosion in simulated concrete pore solution considering the effect of accelerated chloride ingress. The 7th international symposium on cement and concrete, 2010.5, Jinan, China.

[5]   Shi Jinjie, Sun Wei, Influence of phosphate on chloride-induced corrosion behavior of reinforcing steel in mortars. The 2nd International Conference on Microstructural-related Durability of Cementitious Composites (Microdurability). 2012.4, Amsterdam, the Netherlands.

[6]   Shi Jinjie, Sun Wei, Jiang Jinyang. Effects of chlorides on the pitting corrosion behavior of low-alloyed steel in simulated concrete pore solutions. Fifth International Conference on Construction Materials Performance, Innovations, and Structural Implications (ConMat’15), 2015.8, Whistler, BC, Canada.

[7]   Shi Jinjie, Sun Wei, Jiang Jinyang, Ma Han. Effects of chloride concentration on the pitting resistance of 10%Cr corrosion-resistant steel in simulated concrete pore solutions. The 14th International Congress on the Chemistry of Cement (ICCC), 2015.10, Beijing, China.

[8]   Shi Jinjie, Wang Danqian, Ming Jing, Chen Huisu. Electrochemical Behavior of 00Cr10MoV Steel in Alkali-activated Slag Extract. 3rd International RILEM Conference on Microstructure Related Durability of Cementitious Composites, 2016.10, Nanjing, China.

[9]   施锦杰,明静,王丹芊,蒋金洋,孙伟. 6%Cr 钢筋在混凝土模拟液中的氯盐点蚀行为第八届全国腐蚀大会, 2015.11, 福建,厦门。

[10] Shi Jinjie, Ming Jing, Zhang Yamei, Jiang Jinyang. and Sun Wei. Effect of mill scale on the corrosion resistance of low-alloy steel in saturated Ca(OH)2 solution containing chlorides. 37th Cement and Concrete Science Conference, 2017.9, University College London, London, UK.

[11] Ming Jing, Shi Jinjie, Sun Wei. The long-term electrochemical performance and rust distribution of reinforcing steels in concrete. The 2nd ACF Symposium Innovations for Sustainable Concrete Infrastructures, November 2017.11, Chiang Mai, Thailand.

[12] 施锦杰耐蚀钢筋在混凝土中的研究进展。第十一届高强与高性能混凝土会议2018.11,湖南,长沙。

[13] 施锦杰碱激发混凝土中钢筋的耐蚀性研究进展。2020第七届海洋材料与腐蚀防护大会暨2020第一届钢筋混凝土耐久性与设施服役安全大会2020.11,江苏,无锡。

[14] 施锦杰钢筋在碱激发矿渣砂浆中的长期腐蚀行为研究。2021第八届海洋材料与腐蚀防护大会暨2021第二届钢筋混凝土耐久性与设施服役安全大会2021.11,贵州,贵阳。

[15] 施锦杰. 钢筋在含赤泥砂浆中的长期耐蚀性(邀请报告)。第三届全国可持续混凝土理论与应用技术学术交流会2023.5,上海。

[16] 施锦杰. 海洋环境碱激发胶凝材料体系中钢筋的电化学行为研究。第十二届全国腐蚀与防护大会2023.7,湖北,武汉。

5)授权的发明专利

[1]   施锦杰。一种模拟混凝土孔溶液中钢筋锈蚀测试的腐蚀池(ZL201510664328.8),2018.1.2

[2]   施锦杰,周霄骋。一种低碳耐蚀混凝土及其制备方法(ZL 202210275025.7),2023.2.28

[3]   张亚梅,李保亮,施锦杰,张培根,孙正明。一种混凝土用复合矿物掺合料  ZL201610148234.X),2017.12.22

[4]   张亚梅,李保亮,施锦杰,张培根,孙正明。一种免压蒸预应力高强管桩混凝土及管桩制备方法(ZL201610146329.8),2017.11.28


获奖情况

2016年,东南大学青年教师教学竞赛三等奖

2016年,东南大学教学工作一等奖

2017年,国立中泰三等奖教金

2023年,苏博特奖教金

2018年,教育部科技进步二等奖“海洋混凝土结构用长寿命高强耐蚀钢筋制备与应用关键技术”,排第7/15.

2021年,中国建筑材料联合会·中国硅酸盐学会建筑材料科学技术二等奖“氯盐环境钢筋混凝土侵蚀防治基础研究”,排3/8.