曹富荣

姓 名： 曹富荣           研究员

性 别：  男              出生日期：1964年1 月11日

办公电话： 15998161852   Email：cfr-lff@163.com 或 caofr@smm.neu.edu.cn    

1. 学习简历

1994年06月──1999年06月, 东北大学材料与冶金学院，工学博士

1988年09月──1991年06月, 东北大学金属压力加工系，工学硕士

1981年09月 ── 1984年07月, 东北大学黄金学院金属压力加工专业

2. 工作简历

2021年01月──至今,  东北大学材料科学与工程学院，研究员

2015年12月 ──2020年12月,  东北大学材料科学与工程学院，副教授

2001年06月 ── 2015年12月,  东北大学材料与冶金学院，副教授

1991年03月 ── 2001 年05月,  东北大学材料与冶金学院，讲师

1984年08月 ── 1988年08月,  辽宁电子铝箔厂技术科，技术员

3．学术兼职

<精密成形工程>期刊通讯编委。Materials Science and Engineering A, Materials and Design, Journal of Alloys and Compounds, Rare Metals, 中国有色金属学报（中英文）, 金属学报等期刊审稿人。

4．研究方向

（1）金属剧烈塑性变形组织性能与机理。研究金属与合金剧烈塑性变形制备、室温和高温显微组织表征、力学性能与组织演变机理；研究模型建立与阐明变形机理。

（2）金属超塑性与连续铸挤组织性能与机理。研究金属与合金制备、室温和高温显微组织表征、力学性能与组织演变机理；研究模型建立与阐明变形机理。

（3）金属强韧化机理与模型研究。

5．近年来承担的科研项目

近年来承担4 项科研项目，其中国家级项目2 项，省部级项目1 项，横向项目1项。

代表性项目有：

1. 金属材料超塑成形关键技术基础研究 2014.01-2018.12国家自然科学基金重点项目，子课题负责人。

2. 剪切/振动耦合作用下半固态金属强流变成形 2011.01-2014.12国家自然科学基金重点项目，子课题负责人。

3. 电工铝材连续铸挤成形关键技术及装备开发与应用 2012.01-2015.02省部产学研结合项目，执行人。

4. 瓶盖BA基板及高成形性能BA基板CTQ（关键质量特性）的研发   2011.6-2010.5

横向项目，第三参加人。                          

6. 获奖及荣誉

1. Superplasticity, flow and fracture mechanism in an Al-12.7Si-0.7Mg alloy荣获中国有色金属学会科技论文一等奖(2014年)。

2. 中国有色金属学报优秀审稿专家（2018年）。

3. “东北大学2013年度学生科技创新活动优秀指导教师”荣誉称号（2013年）。

7.学术论文与专利

已在国内外有影响的学术期刊和会议上发表论文111篇，SCI收录37篇，EI收录75篇，其中第一作者论文51篇,第一作者SCI论文21篇。

代表性论文有：

 [1]Cao Fu-rong, Yin Bin, Liu Si-yuan, Shi Lu, Wang Shun-cheng , Wen Jing-lin, Microstructural evolution, flow stress and constitutive modeling of a novel Al-1.88Mg-0.18Sc-0.084Er alloy during hot compression, Trans. Nonferrous Met. Soc. China, 31(2021), No.1, 53-73.

 [2] Cao Furong, Zhang Jian, Ding Xin, Xue Guoqiang, Liu Siyuan, Sun Chaofeng, Su Ruikang,  Teng Xiaoming, Mechanical properties and microstructural evolution in a superlight Mg-6.4Li-3.6Zn-0.37Al-0.36Y alloy processed by multidirectional forging and rolling, Mater. Sci. Eng. A,760(2019), 377-393.  

 [3] Cao Furong, Xue Guoqiang, Zhou Bijin, Wang Shuncheng, High-temperature deformation behavior of duplex Mg-8.41Li-1.80Al-1.77Zn alloy processed by friction stir processing, Met. Mater. Int., 25(2019), No.3, 570-583.   

 [4] Cao Furong, Zhou Bijin, Ding Xin, Zhang Jian, Xu Guangming, Mechanical properties and microstructural evolution in a superlight Mg-7.28Li-2.19Al-0.091Y alloy fabricated by rolling, J. Alloys Compd., 745(2018), 436-445.

 [5] Cao Furong, Xue Guoqiang, Xu Guangming, Superplasticity of a dual-phase-dominated Mg-Li-Al-Zn-Sr alloy processed by multidirectional forging and rolling, Mater. Sci. Eng. A, 704(2017), 360-374.

 [6] Cao Furong, Zhu Xiaotong, Wang Shuncheng, Shi Lu, Xu Guangming, Wen Jinglin, Quasi-superplasticity of a banded-grained Al-Mg-Y alloy processed by continuous casting-extrusion, Mater. Sci. Eng. A, 690(2017), 433-445.

 [7]]Cao Fu-rong, Zhou Bi-jin, Yin Bin, Xue Guo-qiang, Zhu Xiao-tong, Xu Guang-ming, Modeling of deformation energy at elevated temperatures and its application in Mg-Li-Al-Y alloy, Trans. Nonferrous Met. Soc. China, 27(2017), No.11, 2434-2442.

 [8] Cao Furong, Xia Fei, Xue Guoqiang. Hot tensile deformation behavior and microstructural evolution of a Mg-9.3Li-1.79Al-1.61Zn alloy, Mater. Des., 92(2016), 44-57.

 [9] Cao Furong. Incorporating dislocation variables into Mohamed’s and Kawasaki-Langdon’s deformation mechanism maps containing superplasticity mechanism regimes, Mater. Sci. Eng. A, 643(2015), 169-174.

 [10] Cao Furong, Xia Fei, Hou Hongliang , Ding Hua, Li Zhiqiang. Effects of high-density pulse current on mechanical properties and microstructure in a rolled Mg-9.3Li-1.79Al-1.61Zn alloy, Mater. Sci. Eng. A, 637(2015), 89-97.   

 [11] Cao Furong, Ding Hua, Hou Hongliang , Yu Chuanping , Li Yinglong. A novel superplastic mechanism-based constitutive equation and its application in an ultralight two-phase hypereutectic Mg-8.42Li alloy, Mater. Sci. Eng. A, 596(2014), 250-254.

 [12]Cao Furong, Li Zhuoliang , Zhang Nianxian, Ding Hua, Yu Fuxiao, Zuo Liang. Superplastity, flow and fracture mechanism in an Al-12.7Si-0.7Mg alloy, Mater. Sci. Eng. A, 571(2013), 167-183.

 [13] Cao F R, Ding H, Li Y L, Zhou G, Cui J Z. Superplasticity, dynamic grain growth and deformation mechanism in ultralight two-phase magnesium-lithium alloys, Mater. Sci. Eng. A, 527(2010), No.9, 2335-2341.

 [14] Cao Fu-rong, Wen Jing-lin, Ding Hua, Wang Zhao-dong, Yu Chuan-ping, Xia Fei. Extrusion force analysis of aluminum pipe fabricated by CASTEX using an expanding collapsible die, Trans. Nonferrous Met. Soc. China，24 (2014), No.11, 3621-3631.  

 [15]Cao Fu-rong，Wen Jing-lin，Ding Hua， Wang Zhao-dong, Li Ying-long，Guan Ren-guo, Hou Hui. Force Analysis and Experimental Study of Aluminum and Al-5wt%Ti-1wt%B alloy Continuous Extrusion Forming Process with an Expansion Chamber, Trans. Nonferrous Met .Soc. China, 23(2013), No.1, 201-207.

 [16] Cao Furong, Ding Hua, Wang Zhaodong, Li Yinglong, Guan Renguo, Cui Jianzhong, Quasi-superplasticity and deformation mechanism of ultralight beta solid solution Mg-11Li-3Zn alloy, Acta Metall. Sin., 48(2012), No.2, 250-256, in Chinese.

 [17]Cao Furong,  Guan Renguo, Ding Hua, Li Yinglong, Zhou Ge, Cui Jianzhong, Dislocation creep in super-light alpha solid solution base Mg-6Li-3Zn alloy, Acta Metall. Sin., 46(2010), No.6, 715-722, in Chinese.

 [18]Cao F R, Cui J Z, Wen J L. Deformation mechanism maps of magnesium lithium alloy and their experimental application. Trans. Nonferrous Met .Soc. China, 12(2002), No.6, 1146-1148.  

 [19] Cao F R, Cui J Z, Wen J L, Lei F. Mechanical behavior and microstructure evolution of superplastic Mg-8.4wt pct Li alloy and effect of grain size and phase ratio on its elongation. J. Mater. Sci. Technol., 16 (2000), No.1, 55-58.

 [20] Cao F R, Shi Z Y, Wen J L. Upper-bound approach analysis of driving power of wheel for CASTEX .Trans. Nonferrous Met .Soc. China, 9(1999), No.1, 99-104.

 [21] Cao F R, Cui J Z, Study of superplastic mechanical behavior for ultralight Mg-8Li alloy, Rare Met. Mater. Eng.,26(1997), No. 2, 27-30, in Chinese.