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尹宇

副教授
电子邮箱: yiny69@mail.sysu.edu.cn

 

个人简介

尹宇,中山大学先进制造学院副教授,博士生导师。

研究方向为高性能合金及其先进成型技术,涉及合金成分设计、轻质高强结构及其成型工艺、极端环境使役行为、新型3D打印装备等。近年来,在Science、Nature Communications、Journal of Materials Science & Technology、Additive Manufacturing等国际知名期刊发表SCI论文60余篇。研究成果被引用3300余次,H指数为31(Google Scholar)。2023年获提名为美国Sigma Xi科学研究荣誉学会会员,并担任International Journal of Extreme Manufacturing(IF=21.3)与Journal of Materials Science & Technology(IF=14.3)等多个国际高水平期刊的青年编委。

长期招收机械、材料、力学等相关方向的硕博研究生及博士后,诚挚欢迎有志从事高性能合金及其先进成型技术研究的青年才俊加入!课题组网站:https://www.x-mol.com/groups/yin_yu

 

基本信息

电子邮箱:yiny69@mail.sysu.edu.cn

通讯地址:广东省深圳市光明区公常路66号,中山大学理学园-东528

Google Scholar主页https://scholar.google.com/citations?user=3_jA-n4AAAAJ&hl=en

 

研究方向

1.新型合金成分设计:合金的自优化设计、AI驱动合金设计、3D打印高性能粉体;

2.轻质高强结构及其成型工艺:3D打印轻质高强互穿结构、高强韧纳米结构及其热加工工艺;

3.极端环境使役行为:高低温力学、腐蚀、氧化等行为;

4.新型3D打印装备开发:低能耗金属3D打印装备、能场辅助金属3D打印装备;

 

教育背景

2016.11 - 2021.05    昆士兰大学澳大利亚)      博士

2013.09 - 2016.06    中国石油大学华东)         硕士

2009.09 - 2013.06    中国石油大学华东)         本科

 

工作经历

2024.01 - 至今          中山大学                              副教授

2021.01 - 2023.12    昆士兰大学澳大利亚)      博士后研究员

 

主讲课程

1.本科生课程:《增材制造技术基础(含实验)》;

2.本科生课程:《制造的艺术》;

3.本科生课程:《生产实习》;

 

学术兼职

1.International Journal of Extreme Manufacturing (中科院一区,IF=21.3) 青年编委;

2.Journal of Materials Science & Technology (中科院一区,IF=14.3) 青年编委;

3.Tungsten (中科院二区,IF=11.2) 青年编委;

4.Intechopen书籍编辑、Frontiers in Materials评审编辑、Crystals客座编辑;

5.广东机关事务研究院决策咨询委员会专家;

6.美国“Sigma Xi科学研究荣誉学会”会员;

 

荣誉奖项

2023:Excellent Article Award(优秀论文奖),Journal of Materials Science and Technology;

2020:Surface Innovations Prize(期刊年度最佳论文),Surface Innovations;

2016:国家公派出国留学奖学金,国家留学基金委员会;

 

主持项目

1.国家外国专家局个人类项目(S20240060),2024-01至2025-12,50万;

2.佛山市教育局创新研究项目(2024XJZZ01),2024-10至 2025-10,10万;

3.广东格米莱智能科技有限公司横向课题,2025-10至2026-10,35万;

 

发表专著及章节

1. Yin Y, Huang H, Zhang M, Zhou L. High Entropy Alloys-Composition and Microstructure Design. 2025. Intechopen (专著)

2. Yin Y, Zhou L, Mu D, Xiao H, Huang H#, Zhang M#, Composition design of high entropy alloys: a brief review. 2025. Intechopen (章节)

3. Yin Y, Atrens A, Huang H, Zhang MX. Cost-Effective Fe-rich High-Entropy Alloys: A Brief Review. High Entropy Materials-Microstructures and Properties. 2022. Intechopen (章节)

 

发表论文(部分)

2025

1.F Luo, Y Yin#, H Jin, Z Chen, W Shi, J Huang. Enhanced corrosion resistance of CoCrFeNiTi high entropy alloy through the addition of VC[J]. Surface and Coatings Technology, 2025: 132324.

2.Jiale Wang, Bo Yin, Kai Qin, Haohao Miao, Yu Yin#, Petro Pavlenko, Yuefeng Yuan, Jinbao Wang, David Henry StJohn, Zhao Zhang, Hao Yi. A new analytical model for process-microstructure-hardness relationships of directed energy deposited nickel alloys[J]. Journal of Materials Research and Technology, 2025, 36: 3974-3987.

3.Yin Y, Wang H, Tan Q, Sun Q, Wu Y, Xu S, Zhao Y, Li M, Liao X, Huang H#, Zhang M#. A new route to bulk nanostructured multiphase alloys with ultrahigh hardness. Journal of Materials Science & Technology. 2025 Mar 1;210:151-8.

4.Yin Y, Chen H, Deng G, Su L, Wu W, Yan M, Dong Y, Xu X, Deng Z, Tan Q, Chang H, Cuo C, Li H#, Ringer S#, Huang H#, Zhang M#. A self-optimized alloy with multi-scale hierarchical microstructure and enhanced mechanical properties. Materials & Design. 2025 Jan 15:113620.

2024

5.Tan Q, Chang H, Liang G, Luzin V, Yin Y, Wang F, Cheng X, Yan M, Zhu Q, Hutchinson C, Zhang MX. High performance plain carbon steels obtained through 3D-printing. Nature Communications. 2024 Nov 21;15(1):10077.

6.Liu Y, Zhang J, Niu R, Bayat M, Zhou Y, Yin Y, Tan Q, Liu S, Hattel JH, Li M, Huang X. Manufacturing of high strength and high conductivity copper with laser powder bed fusion. Nature Communications. 2024 Feb 12;15(1):1283.

7.Zhang J, Bermingham MJ, Otte J, Liu Y, Hou Z, Yang N, Yin Y, Bayat M, Lin W, Huang X, StJohn DH. Ultrauniform, strong, and ductile 3D-printed titanium alloy through bifunctional alloy design. Science. 2024 Feb 9;383(6683):639-45.

2023

8.Yin Y, Tan Q, Yang N, Chen X, Ren W, Liu L, Chen H, Atrens A, Ma N, Huang H, Zhang MX#. Cost-effective and facile route to ultrafine-microstructure high-entropy alloy for cryogenic applications. Materials Science and Engineering: A. 2023 Aug 10;881:145408.

9.Yin Y, Ren W, Tan Q, Chen H, Huang H, Zhang MX#. A cost-effective cryogenic high-entropy alloy with high strength-ductility synergy and strain hardenability. Materials Science and Engineering: A. 2023 Feb 16;865:144607.

2022

10.Zhang J, Liu Y, Sha G, Jin S, Hou Z, Bayat M, Yang N, Tan Q, Yin Y, Liu S, Hattel JH. Designing against phase and property heterogeneities in additively manufactured titanium alloys. Nature communications. 2022 Aug 9;13(1):4660.

11.Yin Y*, Tan Q*, Bermingham M, Mo N, Zhang J, Zhang MX#. Laser additive manufacturing of steels. International Materials Reviews. 2022 Jul 4;67(5):487-573.

12.Yin Y, Zhao Y, Koey KE, Tan Q, Zhang MX#, Huang H#. In-situ synthesized age-hardenable high-entropy composites with superior wear resistance. Composites Part B: Engineering. 2022 Apr 15;235:109795.

13.Yin Y, Tan Q, Sun Q, Ren W, Zhang J, Liu S, Liu Y, Bermingham M, Chen H, Zhang MX#. Heterogeneous lamella design to tune the mechanical behaviour of a new cost-effective compositionally complicated alloy. Journal of Materials Science & Technology. 2022 Jan 10;96:113-25.

14.Tan Q*, Yin Y*, Prasad A, Li G, Zhu Q, StJohn DH, Zhang MX#. Demonstrating the roles of solute and nucleant in grain refinement of additively manufactured aluminium alloys. Additive Manufacturing. 2022 Jan 1;49:102516.

2021

15.Yin Y, Tan Q, Zhao Y, Sun Q, Shi Z, Bermingham M, Zhuang W, Huang H, Zhang MX#. A cost-effective Fe-rich compositionally complicated alloy with superior high-temperature oxidation resistance. Corrosion Science. 2021 Mar 1;180:109190.

2020

16.Yin Y, Tan Q, Wang T, Kent D, Mo N, Bermingham M, Li H, Zhang MX#. Eutectic modification of Fe-enriched high-entropy alloys through minor addition of boron. Journal of Materials Science. 2020 Oct;55:14571-87.

17.Yin Y, Kent D, Tan Q, Bermingham M, Zhang MX#. Spheroidization behaviour of a Fe-enriched eutectic high-entropy alloy. Journal of Materials Science & Technology. 2020 Aug 15;51:173-9.

18.Yin Y, Chen Z, Mo N, Kent D, Candella AR, Koey KE, Tan Q, Bermingham M, Zhang MX#. High-temperature age-hardening of a novel cost-effective Fe45Ni25Cr25Mo5 high entropy alloy. Materials Science and Engineering: A. 2020 Jun 24;788:139580.

2019

19.Yin Y, Zhang J, Tan Q, Zhuang W, Mo N, Bermingham M, Zhang MX#. Novel cost-effective Fe-based high entropy alloys with balanced strength and ductility. Materials & Design. 2019 Jan 15;162:24-33.

 

授权专利(部分)

1. 尹宇,黄含,李元奇,陈龙伟,郭川,丁北辰. 一种高性能双相纳米结构高熵合金材料及其制备方法. ZL202511359068.3,2025-12-2,发明专利;

2. 尹宇,黄含,张凯丽,徐荣,郭川. 一种低成本高强韧的钛合金材料及其制备方法. ZL202511350990.6,2025-12-23,发明专利;

3. 尹宇,王炳英,张文龙,侯振波. 环焊缝自动超声冲击装置. CN201410197745,2016-03-30,发明专利;