尹宇
电子邮箱: yiny69@安博体育.安博体育.edu.cn
博士就读于澳大利亚昆士兰大学(USNews世界排名36),毕业后在昆士兰大学从事了3年的博士后研究。研究领域集中在特种合金及其先进制造技术,涉及多种合金的成分设计、制备和成型工艺、微观结构表征、性能和服役行为分析等。研究目的在于为高端装备或极端环境用特种合金(高熵合金、轻质高强合金等)的研发和制造(3D打印、热加工成型等)提供系统的理论和技术支撑。近年来在国际知名期刊发表SCI论文近50余篇,包括International Materials Reviews、Journal of Materials Science & Technology、Additive Manufacturing和Composites Part B: Engineering等。文章引用量2300余次,H-因子为26(Google Scholar)。
2023年被提名为美国“Sigma Xi科学研究荣誉学会”会员。目前担任国际知名期刊Journal of Materials Science & Technology(中科院一区)和Tungsten青年编委。同时在多个国际期刊(Frontiers in materials、Crystals等)担任评审和客座编辑,也是领域内多个顶级期刊(Additive manufacturing、Acta Materialia、International Journal of Mechanical Sciences、Scripta Materialia、Journal of the European Ceramic Society等)的审稿人,曾多次受邀参与国际会议并作为Keynote speaker进行主题演讲。
课题组经费充足,长期招收材料工程、增材制造工程、机械工程和力学等专业方向的硕士研究生、博士研究生和博士后,欢迎有志从事特种合金及先进制造技术研究的同学报考和联系!
基本信息
通讯电话:15507589626
通讯地址:广东省深圳市光明安博体育66号,中山大学理学园-东528
学术主页:http://www.researchgate.net/profile/Yu-Yin-25(ResearchGate)
学术主页:http://scholar.google.com/citations?user=3_jA-n4AAAAJ&hl=en(Google Scholar)
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
《ABSPORTS》,本科生课程
《安博体育》,本科生课程
研究领域
先进金属材料;激光增材制造;热加工成型;微观结构表征;力学性能;服役行为
学术兼职
l广东机关事务研究院决策咨询委员会专家
l被提名为美国“Sigma Xi科学研究荣誉学会”会员
lMaterials Australia会员
lJournal of Materials Science & Technology (一区,IF=11.2) 青年编委
lTungsten青年编委
lIntechopen书籍编辑
lFrontiers in Materials评审编辑
lCrystals、Recent Progress in Materials客座编辑
lAdditive Manufacturing (一区,IF=11.6), Acta Materialia (一区,IF=9.2), International Journal of Mechanical Sciences (一区,IF=7.3), Scripta Materialia (一区,IF=6.3), Journal of the European Ceramic Society, Microstructures, Metallurgical and Materials Transactions A等国际知名期刊审稿人
国际会议
2023.11:PRICM11,受邀演讲
2023.10:MISE2023,口头演讲
2023.03:MatSciCon2023,Keynote Speaker主题演讲
2022.01:CAMS2022,口头演讲
2021.06:AMST2021,受邀演讲
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
2014:研究生国家奖学金,中国石油大学(华东)
2014:优秀研究生,中国石油大学(华东)
2013:全国大学生工程训练综合能力竞赛一等奖,教育部高等教育司
2013:院长奖,中国石油大学(华东)
2012:科技创新奖学金,中国石油大学(华东)
2011:全国三维数字化创新设计大赛一等奖,国家制造业信息化培训中心
发表专著
1.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 (Book chapter)
期刊论文
2025年
1.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.
2.Yin Y, Chen H, Deng G, Su L, Wu W, Yan M, Dong Y, Xu X, Deng Z, Tan Q, Chang H. A self-optimized alloy with multi-scale hierarchical microstructure and enhanced mechanical properties. Materials & Design. 2025 Jan 15:113620.
3.Guo C, Wang J, Lu H, Wang Y, Bai J, Li G, Yin Y, Yao L, Zhu Q, Lu J. Enhanced oxidation resistance of additively manufactured Inconel 718 superalloy by surface mechanical attrition treatment. Corrosion Science. 2025 Jan 17:112719.
4.Xu S, Yin B, Wang J, Jin L, Yin Y, Li Z, StJohn DH, Pavlenko P, Guo Y. Controlling the formation of microstructure at the melt-pool boundaries during directed energy deposition of aluminum alloy with a modified continuous growth restriction factor. Journal of Materials Research and Technology. 2025 Jan 1;34:2344-57.
2024年
5.Xu S, Yin B, Wang J, Jin L, Yin Y, Li Z, StJohn DH, Pavlenko P, Guo Y. Controlling the formation of microstructure at the melt-pool boundaries during directed energy deposition of aluminum alloy with a modified continuous growth restriction factor. Journal of Materials Research and Technology. 2024 Dec 28.
6.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.
7.Guo C, Zhou Y, Yin Y, Liu R, Zhu Q. Laser powder bed fusion of a Co-Al-W-based composite: Effects of Y2O3 nanoparticles on crack elimination, microstructure and mechanical properties. Materials Science and Engineering: A. 2024 May 25:146717.
8.Tan Q, Chang H, Lindwall G, Li E, Durga A, Liang G, Yin Y, Wang G, Zhang MX. Unravelling the roles of TiN-nanoparticle inoculant in additively manufactured 316 stainless steel. Journal of Materials Science & Technology. 2024 Mar 10;175:153-69.
9.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.
10.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年
11.Tan Q, Yin Y, Zhang MX. Comparison of the Grain-Refining Efficiencies of Ti and LaB6 Inoculants in Additively Manufactured 2024 Aluminum Alloy: The Important Role of Solutes. Metals. 2023 Aug 19;13(8):1490.
12.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.
13.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.
14.Liang G, Liu Y, Yang X, Atrens A, Wu T, Tian Z, Tan Q, Yin Y, Wang J, Zhang MX. Grain refinement of A517 steel by inoculation with Al–5Ti–B master alloy. Materials Chemistry and Physics. 2023 Feb 15;296:127320.
15.Li M, Xu SD, Lyu WY, Sun Q, Hong M, Wang Y, Liu JX, Yin Y, Zou J, Chen ZG. Unravelling Effective-Medium transport and interfacial resistance in (CaTe) x (GeTe) 100-x thermoelectrics. Chemical Engineering Journal. 2023 Jan 15;452:139269.
16.Zhao Y, Lu M, Fan Z, Yin Y, Lin W, Huang H. Laser surface engineering of Ti–6Al–4V with TiO2/Al2O3 composite powder for improved wear resistance. Smart Materials in Manufacturing. 2023 Jan 1;1:100015.
17.Wang T, Phelan D, Wexler D, Yin Y, Guo L, Zhang C, Li H. Detailed analysis of nucleation and subsequent δ to γ phase transformation of a high N super austenitic stainless steel. Materials Characterization. 2023 Jan 1;195:112485.
2022年
18.Tan Q, Chang H, Yin Y, Wang F, Huang D, Liang G, Wu T, Yan M, Cheng X, Zhang MX. Simultaneous enhancements of strength and ductility of a selective laser melted H13 steel through inoculation treatment. Scripta Materialia. 2022 Oct 1;219:114874.
19.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.
20.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.
21.Tan Q, Yin Y, Wang F, Chang H, Liu S, Liang G, Wu T, Zhang MX. Rationalization of brittleness and anisotropic mechanical properties of H13 steel fabricated by selective laser melting. Scripta Materialia. 2022 Jun 1;214:114645.
22.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.
23.Fan Z, Yin Y, Tan Q, Li X, Niu P, Li R, Yuan T, Zhang MX, Huang H. Unveiling solidification mode transition and crystallographic characteristics in laser 3D-printed Al2O3-ZrO2 eutectic ceramics. Scripta Materialia. 2022 Mar 15;210:114433.
24.Sun Q, Shi XL, Hong M, Yin Y, Xu SD, Chen J, Yang L, Zou J, Chen ZG. Achieving High‐Performance Ge0. 92Bi0. 08Te Thermoelectrics via LaB6‐Alloying‐Induced Band Engineering and Multi‐Scale Structure Manipulation. Small. 2022 Feb;18(6):2105923.
25.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.
26.Liu S, Zhan H, Kent D, Tan Q, Yin Y, Doan N, Wang C, Dargusch M, Wang G. Effect of Mg on dynamic recrystallization of Zn–Mg alloys during room-temperature compression. Materials Science and Engineering: A. 2022 Jan 7;830:142243.
27.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年
28.Zhao Y, Lu M, Yin Y, Lin W, Huang H. Laser gas alloying of Ti-6Al-4V in air for tribological applications. Applied Surface Science. 2021 Dec 30;570:151125.
29.Xu S, Hong M, Li M, Sun Q, Yin Y, Liu W, Shi X, Dargusch M, Zou J, Chen ZG. Two-dimensional flexible thermoelectric devices: Using modeling to deliver optimal capability. Applied Physics Reviews. 2021 Dec 1;8(4).
30.Liu Y, Zhang J, Tan Q, Yin Y, Liu S, Li M, Li M, Liu Q, Zhou Y, Wu T, Wang F. Additive manufacturing of high strength copper alloy with heterogeneous grain structure through laser powder bed fusion. Acta Materialia. 2021 Nov 1;220:117311.
31.Huang D, Tan Q, Zhou Y, Yin Y, Wang F, Wu T, Yang X, Fan Z, Liu Y, Zhang J, Huang H. The significant impact of grain refiner on γ-TiAl intermetallic fabricated by laser-based additive manufacturing. Additive Manufacturing. 2021 Oct 1;46:102172.
32.Ran L, Baktash A, Li M, Yin Y, Demir B, Lin T, Li M, Rana M, Gentle I, Wang L, Searles DJ. Sc, Ge co-doping NASICON boosts solid-state sodium ion batteries' performance. Energy Storage Materials. 2021 Sep 1;40:282-91.
33.Tan Q, Fan Z, Tang X, Yin Y, Li G, Huang D, Zhang J, Liu Y, Wang F, Wu T, Yang X. A novel strategy to additively manufacture 7075 aluminium alloy with selective laser melting. Materials Science and Engineering: A. 2021 Jul 21;821:141638.
34.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.
35.Sun Q, Chen ZY, Li M, Shi XL, Xu SD, Yin Y, Dargusch M, Zou J, Ang R, Chen ZG. Structural Evolution of High‐Performance Mn‐Alloyed Thermoelectric Materials: A Case Study of SnTe. Small. 2021 Jun;17(25):2100525.
36.Sun Q, Li M, Shi XL, Xu SD, Liu WD, Hong M, Lyu WY, Yin Y, Dargusch M, Zou J, Chen ZG. Versatile vanadium doping induces high thermoelectric performance in GeTe via band alignment and structural modulation. Advanced Energy Materials. 2021 May;11(20):2100544.
37.Zhao Y, Fan Z, Tan Q, Yin Y, Lu M, Huang H. Interfacial and tribological properties of laser deposited TiOxNy/Ti composite coating on Ti alloy. Tribology International. 2021 Mar 1;155:106758.
38.Liu Y, Zhang J, Tan Q, Yin Y, Li M, Zhang MX. Mechanical performance of simple cubic architected titanium alloys fabricated via selective laser melting. Optics & Laser Technology. 2021 Feb 1;134:106649.
39.Tan Q, Yin Y, Fan Z, Zhang J, Liu Y, Zhang MX. Uncovering the roles of LaB6-nanoparticle inoculant in the AlSi10Mg alloy fabricated via selective laser melting. Materials Science and Engineering: A. 2021 Jan 7;800:140365.
40.Zhang J, Liu Y, Bayat M, Tan Q, Yin Y, Fan Z, Liu S, Hattel JH, Dargusch M, Zhang MX. Achieving high ductility in a selectively laser melted commercial pure-titanium via in-situ grain refinement. Scripta Materialia. 2021 Jan 15;191:155-60.
2020年
41.Liu Y, Zhang J, Gu X, Zhou Y, Yin Y, Tan Q, Li M, Zhang MX. Mechanical performance of a node reinforced body-centred cubic lattice structure manufactured via selective laser melting. Scripta Materialia. 2020 Dec 1;189:95-100.
42.Tan Q, Liu Y, Fan Z, Zhang J, Yin Y, Zhang MX. Effect of processing parameters on the densification of an additively manufactured 2024 Al alloy. Journal of Materials Science & Technology. 2020 Dec 1;58:34-45.
43.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.
44.Tan Q, Zhang J, Sun Q, Fan Z, Li G, Yin Y, Liu Y, Zhang MX. Inoculation treatment of an additively manufactured 2024 aluminium alloy with titanium nanoparticles. Acta Materialia. 2020 Sep 1;196:1-6.
45.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.
46.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.
47.Tan Q, Zhang J, Mo N, Fan Z, Yin Y, Bermingham M, Liu Y, Huang H, Zhang MX. A novel method to 3D-print fine-grained AlSi10Mg alloy with isotropic properties via inoculation with LaB6 nanoparticles. Additive Manufacturing. 2020 Mar 1;32:101034.
2019年
48.Luo X, Tan QY, Mo N, Yin Y, Yang YQ, Zhuang W, Zhang MX. Effect of deep surface rolling on microstructure and properties of AZ91 magnesium alloy. Trans. Nonferrous Met. Soc. China. 2019 Jul 1;29(7):1424-9.
49.Tan Q, Mo N, Lin CL, Zhao Y, Yin Y, Jiang B, Pan F, Atrens A, Huang H, Zhang MX. Generalisation of the oxide reinforcement model for the high oxidation resistance of some Mg alloys micro-alloyed with Be. Corrosion Science. 2019 Feb 1;147:357-71.
50.Tan Q, Yin Y, Mo N, Zhang M, Atrens A. Recent understanding of the oxidation and burning of magnesium alloys. Surface Innovations. 2019 Jan 30;7(2):71-92.
51.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.
52.Wang B, Yin Y, Gao Z, Hou Z, Jiang W. Influence of the ultrasonic surface rolling process on stress corrosion cracking susceptibility of high strength pipeline steel in neutral pH environment. RSC advances. 2017;7(59):36876-85.