职称:讲师
电子邮箱:wwzhu@stu.edu.cn
工作部门:工学院
办公地点:机电楼307室
主要研究方向
1.金属材料强韧化及各向异性
2.先进金属材料摩擦学
3.新型生物医用合金
教育背景
2016.01-2020.06博士,澳门大学-(南方科技大学联合培养),应用物理与材料工程
2011.09-2014.06硕士,武汉科技大学,材料科学与工程
2005.09-2009.06学士,武汉科技大学,金属材料工程
科研工作经历
2014.09-2015.12 南方科技大学,研究助理
2020.10-2021.03汕头大学,博士后
2021.04至今汕头大学,讲师
科研项目
1.2021.04-2024.04,汕头大学科研启动基金,50万元,项目负责人
2.国家自然科学基金青年项目,51501087,牙科用块体钻银纳米双相合金的变形机理及生物适配机制研究,2016/1-2018/12,参加
3.深圳市科技计划项目,JCYJ20170412153039309,基20170029纳米晶合金高温稳定化机制研究,2017/7-2020/7,参加
4.国家重点研发计划“材料基因工程关键技术与支撑平台”重点专项,2016YFB0700803,基于材料基因工程的组织诱导性骨和软骨修复材料研制,2016/7-2021/6,参加
主要论文
1.Weiwei Zhu, Cancan Zhao, Yiwen Zhang, Chi Tat Kwok, Junhua Luan, Zengbao Jiao, Fuzeng Ren*. Achieving exceptional wear resistance in a compositionally complex alloy via tuning the interfacial structure and chemistry.Acta Materialia188, 697-710, (2020).
2.Weiwei Zhu, Cancan Zhao, Chi Tat Kwok, Jian Zhou, Fuzeng Ren*. Effects of nanocrystalline microstructure on the dry sliding wear behavior of a Cu-10 at% Ag-10 at% W ternary alloy against stainless steel.Wear402-403, 1-10, (2018).
3.Weiwei Zhu, Cancan Zhao, Jian Zhou, Chi Tat Kwok, Fuzeng Ren*. Microstructure, sliding wear and corrosion behavior of bulk nanostructured Co-Ag immiscible alloys.Journal of Alloys and Compounds748, 961-969, (2018).
4.Fuzeng Ren*,Weiwei Zhu, Kangjie Chu. Fabrication and evaluation of bulk nanostructured cobalt intended for dental and orthopedic implants.Journal of the Mechanical Behavior of Biomedical Materials68, 115-123, (2017).
5.Fuzeng Ren*,Weiwei Zhu, Kangjie Chu, Cancan Zhao. Tribological and corrosion behaviors of bulk CuW nanocomposites fabricated by mechanical alloying and warm pressing.Journal of Alloys and Compounds676, 164-172, (2016).
6.Fuzeng Ren*,Weiwei Zhu, Kangjie Chu. Fabrication, tribological and corrosion behaviors of ultra-fine grained Co–28Cr–6Mo alloy for biomedical applications.Journal of the Mechanical Behavior of Biomedical Materials60, 139-147, (2016)
发明专利
1.一种块体钛钼铌合金及其制备方法;发明人:任富增,朱微微,赵璨璨,万天;中国专利号:202010849858.0;专利日期:2020-08-21
2.一种新型牙科用铌银合金及其制备方法;发明人:任富增,储康杰,朱微微;中国专利号:201710086861.X;专利日期: 2017-02-17
其他科研成果(按时间倒序)
15 Xiaofei Wang,Ju Fang,Weiwei Zhu,Chuanxin Zhong,Dongdong Ye,Mingyu Zhu,Xiong Lu,Yusheng Zhao,Fuzeng Ren*. Bioinspired Highly Anisotropic, Ultrastrong and Stiff, and Osteoconductive Mineralized Wood Hydrogel Composites for Bone Repair.Advanced Functional Materials2010068, 2021.
14 Ranxi Duan, Sheng Li, Biao Cai*,Weiwei Zhu, Fuzeng Ren *, Moataz M. Attallah*. A high strength and low modulus metastable β Ti-12Mo-6Zr-2Fe alloy fabricated by laser powder bed fusion in-situ alloying.Additive Manufacturing101708, 2020.
13 Lu Yang, Zhuo Cheng,Weiwei Zhu, Cancan Zhao,Fuzeng Ren*. Significant reduction in friction and wear of a high-entropy alloy via the formation of self-organized nanolayered structure.Journal of Materials Science & Technology73, 1-8, 2020.
12 Lu Yang, Cancan Zhao,Weiwei Zhu, Zhuo Cheng, Pengbo Wei, Fuzeng Ren* Microstructure, mechanical properties, and sliding wear behavior of oxide-dispersion-strengthened femnni alloy fabricated by spark plasma sintering.Metallurgical and Materials Transactions A51, 2796-2810, 2020.
11 Dingshan Liang, Cancan Zhao,Weiwei Zhu, Pengbo Wei, Feilong Jiang, Fuzeng Ren* Significantly enhanced wear resistance of an ultrafine-grained CrFeNi medium-entropy alloy at elevated temperatures.Metallurgical and Materials Transactions A51, 2834-850, 2020.
10 Zhuo Cheng,Weiwei Zhu, Lu Yang, Cancan Zhao, Pengbo Wei, Fuzeng Ren*. Tuning the mechanical properties of Fex(CoMoNi)100-x high-entropy alloys via controlled formation of hard μ phase.Materials Science and Engineering: A773, 138881, (2020).
9 Feilong Jiang, Cancan Zhao, Dingshan Liang,Weiwei Zhu, Yiwen Zhang, Shuai Pan, Fuzeng Ren*. In-situ formed heterogeneous grain structure in spark-plasma-sintered CoCrFeMnNi high-entropy alloy overcomes the strength-ductility trade-off.Materials Science and Engineering: A771, 138625, (2020).
8 Yiwen Zhang, Kangjie Chu, Shan He, Bi Wang,Weiwei Zhu, Fuzeng Ren*. Fabrication of high strength, antibacterial and biocompatible Ti-5Mo-5Ag alloy for medical and surgical implant applications.Materials Science and Engineering: C106, 110165, (2020).
7 Shuai Pan, Cancan Zhao,Weiwei Zhu, Feilong Jiang, Jian Zhou, Fuzeng Ren*. Sliding Wear Behavior of Spark Plasma-Sintered Cu–6 Wt Pct Cr Alloy at Room and Elevated Temperatures.Metallurgical and Materials Transactions A50, 3132-3147, (2019).
6 Feilong Jiang,Weiwei Zhu, Cancan Zhao, Yulei Li, Pengbo Wei, Tian Wan, Haixia Ye, Shuai Pan, Fuzeng Ren*. A strong, wear- and corrosion-resistant, and antibacterial Co–30 at.% Cr–5 at.% Ag ternary alloy for medical implants.Materials & Design184, 108190, (2019).
5 Dingshan Liang, Cancan Zhao,Weiwei Zhu, Pengbo Wei, Feilong Jiang, Yiwen Zhang, Qingping Sun, Fuzeng Ren*. Overcoming the strength-ductility trade-off via the formation of nanoscale Cr-rich precipitates in an ultrafine-grained FCC CrFeNi medium entropy alloy matrix.Materials Science and Engineering: A762, 138107, (2019).
4 Kangjie Chu, Fuzeng Ren*,Weiwei Zhu, Cancan Zhao, Pascal Bellon, Robert S. Averback. Sliding wear induced subsurface microstructural evolution in nanocrystalline Nb-Ag binary alloys and its impact on tribological performance.Wear392-393, 69-76, (2017).
3 Jing Cui, Liang Zhao,Weiwei Zhu, Bi Wang, Cancan Zhao, Liming Fang, Fuzeng Ren*. Antibacterial activity, corrosion resistance and wear behavior of spark plasma sintered Ta-5Cu alloy for biomedical applications.Journal of the Mechanical Behavior of Biomedical Materials74, 315-323, (2017).
2 Bi Wang, Liang Zhao,Weiwei Zhu, Liming Fang, Fuzeng Ren*. Mussel-inspired nano-multilayered coating on magnesium alloys for enhanced corrosion resistance and antibacterial property.Colloids and Surfaces B: Biointerfaces157, 432-439, (2017).
1 Kangjie Chu,Weiwei Zhu, Cancan Zhao, Fuzeng Ren*. Forced atomic mixing of immiscible Nb-Ag alloys by severe plastic deformation.Materials Letters207, 141-144, (2017).
