美国University of Nevada(Reno)【金属材料】课题组招2025年(全奖)博士生/科....
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陈铭博士于2025年加入内华达大学里诺分校(R1)化学与材料工程系担任助理教授,专注于制备具有优异机械性和功能性的金属和陶瓷,发展新型的金属材料制造工艺。
目前招聘包括(但不限于)以下方向:
(1) 增材制造具有复杂微观结构的金属和陶瓷材料;
(2) 测试和表征材料在微纳米尺度、极端条件和多物理场耦合下的力学性能;
(3) 冷冻浇注工艺(Freeze casting)制备功能性金属泡沫;
(4) 可持续冶金新工艺设计和研究;
(5) 模拟和预测多物理场耦合条件下金属微观结构演变和材料流变;
欢迎具有材料、冶金、机械、应用物理以及其它相关学科背景的申请人,联系方式:1point3acres.com。博士申请的具体要求(语言和GRE等)和流程请参照以下链接,申请时间灵活,不受截止日期限制。博士申请者请附上英文简历,本科/硕士成绩单,2-3名推荐人的联系方式(单位、职务和邮箱),具体(全奖)博士职位见最后附件。
课题组支持情况:
(1) 全奖博士职位(包含工资和学费)
(2) 在顶级国际期刊发表高水平学术文章
(3) 支持参加国际学术会议和交流
(4) 博士毕业,可推荐至美国和欧洲顶级高校和著名课题组开展后期研究。
博士申请要求:unr.edu
教师个人主页: unr.edu
教师个人简介
陈铭博士于2025年加入内华达大学里诺分校化学与材料工程系担任助理教授,此前在金属领域杰出学者美国西北大学David Dunand教授(TMS fellow)课题组开展博士后工作(2022-2024)。分别于北京科技大学(2012年)、德国亚琛工业大学(2015年)和瑞士苏黎世联邦理工学院(2020年)取得本科、硕士和博士学位, 博士期间师从薄膜力学领军学者Ralph Spolenak教授。
代表性论文
Chen, L. Pethö, J.M. Wheeler, et. al., Achieving micron-scale plasticity and theoretical strength in Silicon, Nature Communications, (2020), 11(1), 2681.
Chen, L,Y.Z. Xu, D.C. Dunand, et. al., Microstructure and properties of high-entropy-superalloy microlattices fabricated by direct ink writing, Acta Materialia, (2024), 120055.
Chen, A. Pröschel , D.C. Dunand, et. al., Ink casting and 3D-extrusion printing of Yb14MnSb11 for high-temperature thermoelectric material, Advanced Functional Materials, (2024): 2415210.
Chen, S. Pennell, D. C. Dunand, Tungsten's Role in Enhancing Sintering Resistance of Fe‐W Hierarchical Foams during Redox Cycling, Advanced Functional Materials, (2024), 2411085.
Chen, S. Van Petegem, H. Van Swygenhoven, et. al., Microstructural engineering of a dual-phase Ti-Al-V-Fe alloy via in situ alloying during laser powder bed fusion, Additive Manufacturing, (2022), 59, 103173.
学校简介
美国内华达大学(里诺)的工程学科QS全球排名第50位,近年来在理工科等领域发展迅速,学校专注于建设研究型大学。主校区坐落于内华达州里诺市(Reno),地理位置极佳,距离著名滑雪旅游胜地太浩湖以及众多国家公园很近。
附件:博士课题
PhD Position: Additive Manufacturing of Complex Metallic Materials
Prof. Chen’s research group – Processing and Physical Metallurgy (PPM) Laboratory – in the Department of Chemical and Materials Engineering at the University of Nevada, Reno, (UNR) is seeking a motivated PhD candidate interested in additive manufacturing of complex metallic materials with exceptional mechanical properties for extreme environments to join from summer 2025 (The specific start date is negotiable).
Project background
This project concentrates on using an additive manufacturing strategy to form and shape metals with designed microstructures, phases, and chemical compositions for outstanding performance. This project aims to advance a novel additive manufacturing technique and establish a processing-microstructure-property relationship to optimize the performance of complex metals.
Position Responsibilities
We are seeking a highly motivated researcher to advance a novel additive manufacturing method for processing advanced alloys with tailored microstructures. This project involves:
Experimental work in 3D printing of complex metals
Microstructural characterization using electron microscopy
In situ mechanical testing to evaluate material properties
Data analysis to understand process-structure-property relationships
Manuscript preparation for publication in peer-reviewed journals
Preferred profile
Bachelor or master's degree or equivalent degree in materials science, metallurgical engineering, mechanical engineering, chemistry, physics, or related fields;
Background in metallography, metals, mechanical properties, crystallography, or solid-state physics is a plus;
Experience with computational modeling of materials is a plus;
How to apply
Please send the following documents for application to Prof. Chen (1point3acres.com) directly. Only applications with complete documents will be considered.
目前招聘包括(但不限于)以下方向:
(1) 增材制造具有复杂微观结构的金属和陶瓷材料;
(2) 测试和表征材料在微纳米尺度、极端条件和多物理场耦合下的力学性能;
(3) 冷冻浇注工艺(Freeze casting)制备功能性金属泡沫;
(4) 可持续冶金新工艺设计和研究;
(5) 模拟和预测多物理场耦合条件下金属微观结构演变和材料流变;
欢迎具有材料、冶金、机械、应用物理以及其它相关学科背景的申请人,联系方式:1point3acres.com。博士申请的具体要求(语言和GRE等)和流程请参照以下链接,申请时间灵活,不受截止日期限制。博士申请者请附上英文简历,本科/硕士成绩单,2-3名推荐人的联系方式(单位、职务和邮箱),具体(全奖)博士职位见最后附件。
课题组支持情况:
(1) 全奖博士职位(包含工资和学费)
(2) 在顶级国际期刊发表高水平学术文章
(3) 支持参加国际学术会议和交流
(4) 博士毕业,可推荐至美国和欧洲顶级高校和著名课题组开展后期研究。
博士申请要求:unr.edu
教师个人主页: unr.edu
教师个人简介
陈铭博士于2025年加入内华达大学里诺分校化学与材料工程系担任助理教授,此前在金属领域杰出学者美国西北大学David Dunand教授(TMS fellow)课题组开展博士后工作(2022-2024)。分别于北京科技大学(2012年)、德国亚琛工业大学(2015年)和瑞士苏黎世联邦理工学院(2020年)取得本科、硕士和博士学位, 博士期间师从薄膜力学领军学者Ralph Spolenak教授。
代表性论文
Chen, L. Pethö, J.M. Wheeler, et. al., Achieving micron-scale plasticity and theoretical strength in Silicon, Nature Communications, (2020), 11(1), 2681.
Chen, L,Y.Z. Xu, D.C. Dunand, et. al., Microstructure and properties of high-entropy-superalloy microlattices fabricated by direct ink writing, Acta Materialia, (2024), 120055.
Chen, A. Pröschel , D.C. Dunand, et. al., Ink casting and 3D-extrusion printing of Yb14MnSb11 for high-temperature thermoelectric material, Advanced Functional Materials, (2024): 2415210.
Chen, S. Pennell, D. C. Dunand, Tungsten's Role in Enhancing Sintering Resistance of Fe‐W Hierarchical Foams during Redox Cycling, Advanced Functional Materials, (2024), 2411085.
Chen, S. Van Petegem, H. Van Swygenhoven, et. al., Microstructural engineering of a dual-phase Ti-Al-V-Fe alloy via in situ alloying during laser powder bed fusion, Additive Manufacturing, (2022), 59, 103173.
学校简介
美国内华达大学(里诺)的工程学科QS全球排名第50位,近年来在理工科等领域发展迅速,学校专注于建设研究型大学。主校区坐落于内华达州里诺市(Reno),地理位置极佳,距离著名滑雪旅游胜地太浩湖以及众多国家公园很近。
附件:博士课题
PhD Position: Additive Manufacturing of Complex Metallic Materials
Prof. Chen’s research group – Processing and Physical Metallurgy (PPM) Laboratory – in the Department of Chemical and Materials Engineering at the University of Nevada, Reno, (UNR) is seeking a motivated PhD candidate interested in additive manufacturing of complex metallic materials with exceptional mechanical properties for extreme environments to join from summer 2025 (The specific start date is negotiable).
Project background
This project concentrates on using an additive manufacturing strategy to form and shape metals with designed microstructures, phases, and chemical compositions for outstanding performance. This project aims to advance a novel additive manufacturing technique and establish a processing-microstructure-property relationship to optimize the performance of complex metals.
Position Responsibilities
We are seeking a highly motivated researcher to advance a novel additive manufacturing method for processing advanced alloys with tailored microstructures. This project involves:
Experimental work in 3D printing of complex metals
Microstructural characterization using electron microscopy
In situ mechanical testing to evaluate material properties
Data analysis to understand process-structure-property relationships
Manuscript preparation for publication in peer-reviewed journals
Preferred profile
Bachelor or master's degree or equivalent degree in materials science, metallurgical engineering, mechanical engineering, chemistry, physics, or related fields;
Background in metallography, metals, mechanical properties, crystallography, or solid-state physics is a plus;
Experience with computational modeling of materials is a plus;
How to apply
Please send the following documents for application to Prof. Chen (1point3acres.com) directly. Only applications with complete documents will be considered.
- Curriculum Vitae (CV) – Including education, dissertation topics, and research experiences.
- Academic Transcripts – Undergraduate and graduate (if applicable).
- Cover Letter – Summarizing your research background and interests.
- References – Contact information (Name, institution, email, phone number) for 2-3 referees.
