成林
发布时间:2015-09-29 发布者:系统管理员 浏览次数:

姓名

成林

职称

教授

性别

联系电话

13871299139

电子邮件

chenglin@wust.edu.cn

通信地址

威尼斯87978797威尼斯87978797

学术兼职


一级学科

材料科学与基础/凝聚态物理

二级学科


研究方向

金属材料组织与性能调控;基于大数据分析和人工智能技术的材料研发

个人简历

受教育经历

2009/09-2013/12,威尼斯87978797,材料与冶金学院金属材料工程系,博士

2010/10-2013/09,日本茨城大学,工学部材料科学与工程系,博士

2005/09-2008/06,威尼斯87978797,材料与冶金学院金属材料工程系,硕士

2001/09-2005/06,威尼斯87978797,威尼斯87978797应用物理系,学士

研究工作经历(按时间倒排序)

2016/07-至今,威尼斯87978797,副教授/教授

2014/03-2016/06,威尼斯87978797,威尼斯87978797应用物理系,讲师

2008/07-2009/07,中国测试技术研究院,机械所,工程师

主要著作


主要科研项目

授权专利:

一种大线能量焊接低合金高强度钢板及其制造方法:吴开明、成林、万响亮、陶学理,200910063997(授权公告日2011-01-27)

主持科研项目:

1.国家自然科学基金面上项目,中碳超细贝氏体钢氢扩散与氢致延迟断裂行为,52071238,2021/01-2024/12,58万,主持。

2.国家自然科学基金青年科学基金项目:锰溶质原子与钛、锆氧化物之间的相互作用及其对晶内铁素体形核的影响,项目批准号:51401152,2015.01-2017.12,24万,主持。

3.企业合作项目:硅钢成品板加工硬化区特征参数与比总损耗的预测模型开发,2023.00-2024.12,27万。

4.省部共建耐火材料与冶金国家重点实验室项目:氢陷阱对氢电化学渗透曲线影响机制的研究,青年基金,2018QN17,2018/01-2019/12,5万,主持。

5.冶金工业过程系统科学湖北省重点实验室面上项目:氢陷阱对氢在钢中扩散与捕获行为的影响,Y201703,2018/01-2019/12,2万,主持

参与项目:若干。


主要论文

[1] Runsheng Wang, Lin Cheng*, Chaochao Yin, Wenjing Lou, Kaiming Wu. The effects of hydrogen and vacancy on the tensile deformation behavior of Σ3 symmetric tilt grain boundaries in pure fe. International Journal of Hydrogen Energy, 48, 2023: 30930-30948.

[2] Xing-yu Chen, Lin Cheng*, Cheng-yang Hu, Yu-peng Zhang & Kai-ming Wu, Microstructure recognition of steels by machine learning based on visual attention mechanism, J. Iron Steel Res. Int. (2023)

[3] Lou, W., Cheng, L.*, Wang, R. et al. Atomistic Investigation of the Influence of Hydrogen on Mechanical Response during Nanoindentation in Pure Iron. Acta Metall. Sin. (Engl. Lett.) 36, 1179–1192 (2023).

[4] Chaochao Yin, Lin Cheng*, Shi Cheng, Zhihui Wang, Shu-E. Hu, Zicheng Liu, Deng Luo, Daheng Xiao, Xing Jin, Hankun Liu, and Kaiming Wu*, Steel Research International, 2023, 2200343.

[5] ChengWang, Lin Cheng*,XuSun, XianZhang, JingLiu, *. First-principle study on the effects of hydrogen in combination with alloy solutes on local mechanical properties of steels,International Journal of Hydrogen Energy, 47, 52, 2022, 22243-22260

[6] Zhuang Yan, Li Li*, Lin Cheng*, Xingyu Chen & Kaiming Wu, New insight in predicting martensite start temperature in steels, Journal of Materials Science, 2022, 57, 11392-11410.

[7] Lin Cheng*, Bangshu Yang, Yajie Wu, Xian Zhang*, Jing Liu, Guohong Zhang, Kaiming Wu, Experimental and numerical analysis of hydrogen diffusion behaviors in an ultra-fine bainitic steel, International Journal of Hydrogen Energy, 2020(45), 25493-25508.

[8] Bangshu Yang, Li Li*, Lin Cheng*, Numerical evaluation on analysis methods of trapping site density in steels based on hydrogen permeation curve, Materials, 2020(13)3712:1-11.

[9] W. Z. Wei, K. M. Wu, X. Zhang*, J. Liu, P. Qiu, L. Cheng*, In-situ characterization of initial marine corrosion induced by rare-earth elements modified inclusions in Zr-Ti deoxidized low-alloy steels, Journal of Materials Research and Technology, in press, 2019.

[10] Meng Tang, Kaiming Wu, Jing Liu*, Lin Cheng*, Xian Zhang, Yan Chen. Mechanism understanding of the role of rare earth inclusions in the initial marine corrosion process of microalloyed steels. Materials, 2019,12(20): 3359.

[11] L Cheng(*) L Li (*)X ZhangJ LiuKM WuNumerical simulation of hydrogen permeation in steels, Electrochimica Acta, 2018, 270:77-86

[12] L Cheng(*); C Xu; LL Lu; Y Li; KM Wu, Experimental and first principle calculation study on titanium, zirconium and aluminum oxides in promoting ferrite nucleation, Journal of Alloys & Compounds, 2018, 742: 112-122.

[13] Masato Enomoto, Lin Cheng, Hiroyuki Mizuno, Yoshinori Watanabe, Tomohiko Omura, Junichi Sakai, Kenichi Yokoyama, Hiroshi Suzuki, Ryuji Okuma: Hydrogen absorption into austenitic stainless steels under high-pressure gaseous hydrogen and cathodic charge in aqueous solution, Metallurgical and Materials Transactions E, Vol. 1E, 2014, 331-340.

[14] Cheng Lin, Wu Kai-ming, Wan Xiang-liang, Zhang Guo-hong: Growth kinetics of proeutectoid ferrite in an Fe-0.09C-1.5Mn-0.2Si steel, Journal of Iron and Steel Research International, Volume 21, No. 10, April 2014, 964-968.

[15] Lin Cheng, Kaiming Wu, Xiangliang Wan: Orientation of intragranular idiomorphs in Low-Carbon Low-Alloy Steels, Steel Research International, Volume 85, No. 5, January 2014, 836-843.

[16] L. Cheng, K.M. Wu, X.L. Wan, R. Wei: In-situ observation on the growth of Widmanstätten sideplates in an Fe-C-Mn steel, Materials Characterization, 87(2014), 86-94.

[17] Wan Xiangliang, Wu Kaiming, Wang Honghong, Lu Weiyu, Cheng Lin: Effect of Zr-Ti combined deoxidation on impact toughness of coarse-grained heat-affected zone with high heat input welding, China Welding, Vol.24, No.3, pp1-7.

[18] Xiang-liang Wan, Kai-ming Wu, Gang Huang, Ran Wei, Lin Cheng: In situ observation of austenite grain growth behavior in the simulated coarse-grained heated-affected zone of Ti-microalloyed steels, International Journal of Minerals, Metallurgy and Materials, Volume 21, No. 9, September 2014, pp878-885.

[19] Y. Li, X. L. Wan, L. Cheng, K. M. Wu: First-principles calculation on the interaction of Mn with ZrO2 and its effect on the formation of ferrite in high-strength low-alloy steels, Scripta Materalia, 75(2014), pp78-81. 1359-6462

[20] L. Cheng, X.L. Wan, K.M. Wu: Three-dimensional analysis of ferrite allotrimorphs nucleated on grain boundary faces, edges and corners: Materials Characterization, 2010(61): 580-583. (SCI)

[21] L. Cheng, X.L. Wan, K.M. Wu: Three-dimensional morphology of grain boundary Widmanstätten ferrite in a low carbon low alloy steel: Materials Characterization, 61 (2010): 192-197. (SCI)

[22] L. Cheng and K.M. Wu: New insights into intragranular ferrite in a low-carbon low-alloy steel: Acta Materialia, 2009(57): 3574-3762. (SCI))

[23] L. Cheng, Z.G. Li and K.M. WuSerial Sectioning and 3D-reconstruction of Ferrite Allotriomorphs Nucleated at Grain Boundary Faces in an Fe-C-Mn Alloy, ISIJ International, 48(2008), No.6, pp.830-834.(SCI)

[24] L. Cheng, Masato Enomoto and Fu-Gao Wei, Influence of carbon segregation to dislocations on thermal desorption spectrum of hydrogen in medium carbon martensitic steels, ISIJ International. 2013; 53:131-138. (SCI)

[25] L. Cheng, M. Enomoto, D. Hirakami and T. Tarui. Further Assessment of the Kissinger formula in simulation of thermal desorption spectrum of hydrogen, ISIJ International. 2013, 53(2):250-256. (SCI)

[26] X.L. Wan, R. Wei, L. Cheng, M. Enomoto, Y. Adachi. Lengthening kinetics of ferrite plates in high strength low-carbon low alloy steel, Journal of Materials Science, 2013, 48: 4345-4355. (SCI)

[27] X.L. Wan, H.H. Wang, L. Cheng, K.M. Wu. The formation mechanisms of interlocked microstructures in low-carbon high-strength steel weld metals, Materials Characterization, 2012, 67: 41-51. (SCI)

[28] Wan Xiang-Liang, Cheng Lin, Wu Kai-Ming. Three-Dimensional Morphology and Growth Behavior of Ferrite Allotriomorphs Formed on Grain Boundary Edges, Journal of Iron and Steel Research International. 2010, 17(11): 49-53. (SCI)

[29] X.L. Wan, L. Cheng, K.M. Wu. Growth Behavior of Ferrite Allotriomorphs Nucleated on Grain Boundary, Faces in a Low Carbon Steel, Metals and Materials International, 2010, 16: 865-870.

[30]张国宏,成林,李钰,伊萨耶夫•欧列格,吴开明. 海洋耐蚀钢的国内外进展. 中国材料进展, 2014.33(7)pp4.


主要获奖情况

吴开明, 成林, 万响亮, 张国宏, 魏然, 王红鸿: 低合金高强度钢微观组织的三维形态及长大行为, 中国体视学学会科学技术奖, 自然科学奖二等奖, 2013

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