Guangming Zhang

Education: Ph.D. (University of   Science and Technology, Beijing)

Major: Mechanical Engineering

School: School of Mechanical and Automotive Engineering   (MAE)

Department/Institute：Shandong   Engineering Research Center for Additive Manufacturing

Title:   Associate professor

Email:   ustbzgm@163.com

Personal profile（个人简介）

Guangming   ZHANG, associate professor, doctor of Engineering, master supervisor, Young and Creative Talents of Colleges and Universities in   Shandong Province.   His main research fields include 3D printing，micro/nano-scale additive   manufacturing, and bio-3Dprinting. In recent five years,   he has presided over 6 projects such as the National Natural Science   Foundation, and published more than 30 SCI/ EI academic papers including 12   SCI papers published by the first author/corresponding author, and authorized   6 invention patents authorized. At present, he is a reviewer of international   journals such as materials & design, virtual and physical prototyping,   and journal of manufacturing processes, guides students to preside over 2 national   undergraduate Innovation and entrepreneurship projects, and guides students   to obtain 2 excellent undergraduate graduation theses of Qingdao University   of Technology.

Employment track（工作履历）

July 2016 –   December 2019, Assistant professor, School of Mechanical Engineering, Qingdao   University of Technology, China.

January 2018   – present, Associate professor, School of Mechanical and Automotive   Engineering (MAE), Qingdao University of Technology, China.

Visiting Scholar   :

May 2013 – October   2014

University   of Illinois at Urbana-Champaign, USA

Professional Service （学术兼职）

1. Communication review expert of National Natural Science Foundation of China

2. Senior   member of Mechanical Engineering Society

Research field（研究领域）

Additive   manufacturing, Micro/nano-scale 3D printing, Bio-3D printing

Teaching（教学情况）

1. Engineering   Materials and Shaping technology, undergraduate course

2. Interchangeability   and Technical Measurement, undergraduate course

3. Case Analysis   of 3D Printing Technologies, Postgraduate course

4. Mechanism   and Technology of Electrohydrodynamic jet, Postgraduate course

Scientific research（科研情况）

Current research interests

1. Numerical simulation and experiments of electric-field-driven   jet 3D printing technology

2. Manufacture and application of biological scaffolds

3. Development of new micro/nano-scale 3D printing method

Academic achievements（学术成果）

Selected   Research Projects:

1. The   manufacturing method of ultra-fine and high aspect ratio transparent   electrode based on electric-field- driven (EFD) jet 3D printing and   charge-induced autofocusing，Natural Science Foundation of China，01/2019– 12/2021, 51805287, PI.

2. Research   on shaping mechanism, law and application of non-contact electric-field-driven   jet micro/nano-scale 3D printing, Shandong Province University Innovation and   technology support program, 06/2021-06/2024, PI.

3. Manufacturing   method of high-performance flexible transparent electrode based on electric-field-driven   jet 3D printing, Doctoral Foundation of the Ministry of Education, 01/2019–   12/2020, 50000, 51805287, 2018M642629, PI.

Selected   Publications：  

[1] Zhi   Wang，Guangming   Zhang*，et   al. The self-induced electric-field-driven jet printing for fabricating   ultrafine silver grid transparent electrode [J], Virtual and Physical Prototyping,2020.

[2]   Guangming Zhang*，et   al. Continuous DLP-based ceramic 3D printing using a composite oxygen-rich   film [J],Journal of Manufacturing Processes, 2021

[3] Guangming   Zhang, Lei Qian, et al. A micro-scale 3D printing based on the   electric-field-driven jet [J].3D Printing and Additive Manufacturing, 2020.

[4]   Xiaoqiang Li, Guangming Zhang*, et al. The electric-field-driven fusion   jetting 3D printing for fabricating high resolution polylactic   acid/multi-walled carbon nanotube composite micro-scale   structures[J],Micromachines, 2020

[5]   Guangming Zhang, ZhangjianZhou, et al. The effect of thermal-aging on the   microstructure and mechanical properties of 9Cr ferritic/martensitic ODS   alloy, Journal of Nuclear Materials,2019. (Q1)

[6]   Guangming Zhang, ZhangjianZhou, et al. Microstructure and mechanical properties   of Al-containing 9Cr ODS ferritic alloy [J]. Journal of Alloys and Compounds,   2016, 648: 223-228.(Q1)

[7]   Guangming Zhang, Kun Mo, et al. Load partitioning between ferrite/martensite   and dispersed nanoparticles of a 9Cr ferritic/martensitic (F/M) ODS steel at   high temperatures [J]. Materials Science and Engineering: A, 2015, 637:   75-81.(Q1)

[8]   Guangming Zhang, ZhangjianZhou, et al. The comparison of microstructures and   mechanical properties between 14Cr-Al and 14Cr-Ti ferritic ODS alloys [J].   Materials & Design.2015 (Q1)

[9]   Guangming Zhang, ZhangjianZhou, et al. Hot deformation behavior and   processing map of a 9Cr ferritic/martensitic ODS steel [J]. Journal of   Nuclear Materials, 2014, 455(1): 139-144. (Q1)

[10]   Guangming Zhang, ZhangjianZhou, et al. The evolution of internal stress and   dislocation during tensile deformation in a 9Cr Ferritic/Martensitic (F/M)   ODS steel investigated by high-energy X-rays [J], Journal of Nuclear   Materials, 2015, 467: 50-57.(Q1)

[11]   Guangming Zhang, ZhangjianZhou, Man Wang, et al. Tensile and Charpy impact   properties of an ODS Ferritic/Martensitic steel 9Cr–1.8 W–0.5 Ti–0.35 Y2O3   [J]. Fusion Engineering and Design, 2014, 89(4): 280-283.

Honors   and Awards

1. International Association of   Advanced Materials (IAAM, Sweden) IAAM, Award Lecture,1/1, 2020