马宏驰
姓名:马宏驰
所在系所:腐蚀控制系统工程研究所
职称:副研究员
通信地址:北京市海淀区学院路30号北京科技大学新材料技术研究院
邮编:100083
办公地点:腐蚀楼513
办公电话:010-62333931
邮箱:mahongchi@ustb.edu.cn
个人简介
研究方向
科研业绩
主持国家自然科学基金青年基金等科研项目12项,参与多项国家级和企业项目,以第一作者/通讯作者发表SCI论文20余篇(其中中科院一/二区top期刊16篇)。代表性论文如下:
1. Qi Li, Qiong Yao, Liyang Sun, Hongchi Ma*, et al. Effect of micro-galvanic corrosion on corrosion fatigue cracking of the weld joint of high strength bridge steel, International Journal of Fatigue, 2023, 170, 107568.
2. Heng Chen, Yanan Ma, Hongchi Ma, et al. A nano-sized NbC precipitation strengthened FeCoCrNi high entropy alloy with superior hydrogen embrittlement resistance, Corrosion Science, 2022, 208, 110636.
3. Jiaxing Cai, Liyang Sun, Hongchi Ma*, Xiaogang Li. Corrosion characteristics of Q690qE high-strength bridge steel in simulated coastal–industrial environment and its influence on mechanical and corrosion fatigue behaviors, Construction and Building Materials, 2022, 341, 127830.
4. Jun Wang, Liyang Sun, Hongchi Ma*, Xuequn Cheng, Xiaogang Li. Comparative study on mechanical and corrosion fatigue properties of high-strength bridge steels produced by TMCP and intercritical quenching & tempering process. Materials Science and Engineering: A. 2022, 853, 143771.
5. Hongchi Ma, Liyang Sun, Hong Luo, Xiaogang Li. Hydrogen embrittlement of high-strength marine steel as a weld joint in artificial seawater under cathodic polarization, Engineering Failure Analysis, 2022, 134, 106044.
6. H.C. Ma, D. Zagidulin, D.W. Shoesmith. Influence of iron oxides and calcareous deposits on the hydrogen permeation rate in X65 steel in a simulated groundwater, International Journal of hydrogen energy, 46(2021).
7. H.C. Ma, B.J. Zhao, Y. Fan, et al. Simultaneously improving mechanical properties and stress corrosion cracking resistance of high strength low alloy steel via finish rolling within non-recrystallization temperature, Acta Metallurgica Sinica (English Letters), 34 (2021).
8. H.C. Ma, L.H Chen, J.B. Zhao, et al. Effect of prior austenite grain boundaries on corrosion fatigue behaviors of E690 high strength low alloy steel in simulated marine atmosphere, Materials Science and Engineering: A, 773 (2020).
9. H.C. Ma, J.B. Zhao, Y. Fan, et al. Comparative study on corrosion fatigue behaviour of high strength low alloy steel and simulated HAZ microstructures in a simulated marine atmosphere, International Journal of Fatigue, 137(2020).
10. H.C. Ma, B. Zhao, Z.Y. Liu, et al. Local chemistry–electrochemistry and stress corrosion susceptibility of X80 steel below disbonded coating in acidic soil environment under cathodic protection, Construction and Building Materials, 243(2020).
11. H. C. Ma, Y. Fan, Z. Y. Liu, et al. Effect of pre-strain on the electrochemical and stress corrosion cracking behavior of E690 steel in simulated marine atmosphere, Ocean Engineering, 182 (2019): 188-195.
12. H.C. Ma, C.W Du, Z.Y. Liu, et al. Effect of SO2 content on SCC behavior of E690 high-strength steel in SO2-polluted marine atmosphere, Ocean Engineering, 164 (2018): 256-262.
13. H.C. Ma, Z.Y. Liu, C.W. Du, et al. Stress corrosion cracking of E690 steel as a welded joint in a simulated marine atmosphere containing sulphur dioxide, Corrosion Science, 100 (2015) : 627-641.
14. H.C. Ma, Z.Y. Liu, C.W. Du, et al. Comparative study of the SCC behavior of E690 steel and simulated HAZ microstructures in a SO2-polluted marine atmosphere, Materials Science and Engineering: A, 650 (2016): 93-101.
15. H.C. Ma, Z.Y. Liu, C.W. Du, et al. Effect of cathodic potentials on the SCC behavior of E690 steel in simulated seawater, Materials Science and Engineering: A, 642 (2015): 22-31.
16. 马宏驰, 杜翠薇, 刘智勇, 等, E690高强低合金钢焊接热影响区典型组织在含SO2海洋环境中的应力腐蚀行为对比研究, 金属学报, 2019, 52(3): 331-340.
17. 马宏驰, 杜翠薇, 刘智勇, 等, E690高强钢在SO2污染海洋大气环境中的应力腐蚀行为研究, 金属学报, 2016, 52(3): 331-340.
科研获奖:
1. 工业承压管道环境敏感断裂理论创新及重大工程应用,北京市科技进步一等奖,2022年;
2. 高性能低合金耐蚀钢系列钢种研制及应用成套技术,北京市技术发明一等奖,2020年;
3. 耐蚀金属材料环境腐蚀与稳定性调控机制,中国腐蚀与防护学会一等奖,2023年;
4. 高品质耐蚀钢夹杂物调控成套技术与重大工程应用,中国腐蚀与防护学会一等奖,2023年;
5. 钢铁材料应力腐蚀电化学理论创新与工程应用,中国腐蚀与防护学会一等奖,2021年;
6. 基于川藏线环境的免涂装耐候桥梁钢性能调控与评价,中国腐蚀与防护学会一等奖,2021年;
7. 不锈钢轨道客车制造关键技术与工程应用,中国腐蚀与防护学会一等奖,2019年。
代表性专利:
1.马宏驰;李晓刚;程学群;刘智勇;黄运华. 一种高强桥梁钢及其热处理方法(CN115505692A)
2.杨文秀;马宏驰;范益;蔡佳兴;程学群;李晓刚. 一种低屈强比抗应力腐蚀开裂高强钢及制备方法(CN112342458B)
3.马宏驰;范益;杨文秀;蔡佳兴;施小凡;赵晋斌;李晓刚;程学群. 模拟海洋大气环境中的腐蚀疲劳试验装置(CN212693564U)
4.马宏驰;李晓刚;黄运华;程学群;董超芳. 模拟并评价焊接热影响区腐蚀疲劳性能的测试方法及装置(CN111965061A)
5.范益;代芹芹;蔡佳兴;程学群;马宏驰. 一种腐蚀性检测传感器(CN214503304U)