þ Master Supervisor

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Current Professional Societies

Currently an Associate Professor and Master's Supervisor at the School of Mathematics, Statistics, and Mechanics, Beijing University of Technology. Selected for the Beijing Association for Science and Technology Youth Talent Program and recognized as a Beijing Course Ideological and Political Teaching Master. Serves as the structural design lead for a national-level scientific research and innovation platform team (dual appointment) and as the task leader for a key project under a national major initiative. Earned a Ph.D. in Engineering Mechanics from Dalian University of Technology in 2018 and participated in a joint doctoral program at the Department of Mechanical Engineering, Brigham Young University, USA, from 2016 to 2018. Conducted postdoctoral research at the Mechanics Postdoctoral Research Station of Beijing University of Technology from 2018 to 2020.

Research Areas

1.Computational methods and experimental testing for microstructure evolution and performance prediction of composite materials.

2.Structural design of fuel cell stacks.

3.Damage and failure experiments, performance simulation, and nondestructive testing of advanced materials and structures.

4.Simulation and experimentation of processes such as additive manufacturing and friction stir welding/processing.

5.Engineering applications of FEM, CFD, and structural optimization.

Honors

1. Youth Talent Support Program of the Beijing Association for Science and Technology

2. High-Impact Paper on "Additive Manufacturing" in The Chinese Journal of Nonferrous Metals

3. Outstanding Academic Paper Award for Young Mechanics Researchers, Beijing Society of Mechanics

4. Qian Lingxi Mechanics Scholarship

5. Editorial Board Member of Materials Research and Development

6. Reviewer for over ten SCI journals, including Advanced Engineering Materials, IJACT, Journal of Materials Science, and Transactions of Nonferrous Metals Society of China (TNMSC)

7. Expert Reviewer for the Ministry of Education's National Undergraduate Thesis (Design) Sampling Evaluation Expert Database

8. Senior Trainer in CAE Simulation Analysis for the Beijing Enterprise Management Consulting Association

9. Evaluator for the CSCI-ED Scientific and Technological Core Evaluation Database

Publications

Published over 20 SCI papers, authorized 3 national invention patents, and obtained more than 10 software copyrights.

Representative papers from the past five years:

1、Qiang, W., Wu, Q*., & Long, L. (2024). Gradient structured Al alloy with a synergistic improvement of strength-ductility obtained by friction stir processing. Materials Science and Engineering A, 881, [147376].

2、Qiang, W., Wu, Q. *, & Long, L. (2024). Synergetic softening-strengthening behaviors of gradient nano-grained CoCrFeMnNi high-entropy alloys located in the inverse Hall-Petch range revealed by atomistic simulations. International Journal of Refractory Metals and Hard Materials, 117, [106768].

3、Qiang, W., Wu, Q. *, & Long, L. (2024). Shear bands and interface-affected-zone enabled high strength and ductility in heterogeneous laminate-Cu. Materials Today Communications, 34, [109541].

4、Qiang, W., Wu, Q. *, & Long, L. (2024). Potential regulation of strength-ductility by nucleation and growth mechanisms of shear bands in heterogeneous laminates. Materials Today Communications, 33, [107960].

5、Wu, Q., & Pei, N. (2024). Effect of SiC concentration on the mechanical properties and fracture modes of SiC/Al composites via cluster analysis of acoustic emission signals. Journal of Mechanical Science and Technology, 38, 789–799.

6、Qiang, W., Wu, Q. *, & Long, L. (2023). Grain distribution for optimal strength in homogeneous and gradient nano‐grained coppers. Advanced Engineering Materials, 25(9), 2300444.

7、Qiang WZ, Wu Q*, Long LC*. (2023) Synergistic strengthening of dislocation and hetero-deformation induced in gradient nano-grained copper film: A molecular dynamics study. Physica Status Solidi A, 2200762.

8、MJ Gan, Wu Q*, LC Long. (2023) Prediction of residual deformation and stress of laser powder bed fusion manufactured Ti-6Al-4V lattice structures based on inherent strain method. Materials Research, 26: e20220516.

9、Wu, Q. *, & Long, L. (2022). Numerical study on grain evolution of gradient-structured aluminum matrix composites induced by graphene nanoplatelets. Applied Physics A, 128, 1028.

10、Pei, N., & Wu, Q. * (2022). Comparison of off-axis angle on the low velocity impact behaviors for carbon-fiber-reinforced polymer laminates. Journal of Composite Materials, 56(17), 2607–2619.

11、Wu, Q., & Pei, N. (2022). Structural health monitoring of carbon fiber-reinforced laminate composites with torsional loads by using acoustic emission. Journal of Materials Science, 57, 17667–17680.

12、Pei, N., Zhou, S., Xu, C., Shang, J., & Wu, Q. * (2021). Cluster analysis of acoustic emission signals for tensile damage characterization of quasi-static indented carbon/glass fiber-reinforced hybrid laminate composites. Composites Part A, 149, 106597.

13、Wu Q*, et al. (2021) Effect of content and size of reinforcements on the grain evolution of graphene-reinforced aluminum matrix composites. Nanomaterials, 11, 2550.

14、Pei N*, Leonard J Bond, Wu Q. (2022) Analysis of titanium alloy pyramidal lattice core sandwich panels under bending load using acoustic emission. Applied Physics Express, 15, 076508.

15、Wu Q*, et al. (2021) Simulating the effect of temperature gradient on grain growth of 6061-T6 aluminum alloy via Monte Carlo Potts algorithm. CMES - Computer Modeling in Engineering and Sciences, 129: 99-116.

Personal Statement

Male, Han ethnicity, a native of Chuzhou, Anhui Province. Currently an Associate Professor and Master's Supervisor at the School of Mathematics, Statistics, and Mechanics, Beijing University of Technology. Selected for the Beijing Association for Science and Technology Youth Talent Support Program and recognized as a Beijing Course Ideological and Political Teaching Master. Serves as the structural design lead for a national-level scientific research and innovation platform team (dual appointment) and as the task leader for a key project under a national major initiative. Earned a Ph.D. in Engineering Mechanics from Dalian University of Technology in 2018 and participated in a joint doctoral program at the Department of Mechanical Engineering, Brigham Young University, USA, from 2016 to 2018. Conducted postdoctoral research at the Mechanics Postdoctoral Research Station of Beijing University of Technology from 2018 to 2020.

A member of a national-level teaching team, he teaches undergraduate courses such as Engineering Mechanics-1/3 (64+16 hours) and graduate courses including Fortran Programming and Numerical Computation (32 hours) and Computational Mechanics (48 hours). Recognitions and awards include:

Beijing Course Ideological and Political Teaching Master Award

Beijing Higher Education Excellent Undergraduate Courseware Award

Excellent Undergraduate Education Team Award in Beijing Universities

Special Prize (Campus Level) and Excellence Award (Beijing Level) in the 2nd University Teaching Innovation Competition

Outstanding Award in the University Young Teacher Teaching Competition

Dream-Building and Foundation-Strengthening Award at the school level

Project Leader for the Engineering Mechanics-3 First-Class Course Construction Project

Project Leader for the Ministry of Education Language Center Teaching Resource Construction Project

Project Leader for a General Research Project of the Beijing Higher Education Society

Second Prize in the University Teaching Achievement Awards

Leader of the Graduate Ideological and Political Education in Research Teams Project

University Course Ideological and Political Outstanding Case Award

He has supervised seven undergraduate graduation theses and guided multiple undergraduate and graduate students to receive honors such as the University Graduate Science and Technology Fund, Spark Fund, Top 100 Graduates, and Excellent Graduates awards.