Prof. Zhao Zhang is full professor in Process Mechanics at Dalian University of Technology. He published over 180 peer-reviewed articles. He is now serving as editor of Coatings(IF:3.236), Crystals(IF:2.67) and Journal of Central South University(IF:2.392) (Youth editor) in 2020-2022. He is serving as reviewer of more than 30 SCI journals. He is member of First Council of Advanced Welding and Joining in Non-Ferrous Society of China and member of International Association of Computational Mechanics and  China Association of Computational Mechanics. He obtained the awards of Most cited articles 2005-2010 and Most cited articles 2009 in Journal of Materials Processing Technology and obtained the award of Excellent Scientific Paper in China Association for Science and Technology in 2020. His research interests include additive manufacturing, friction stir welding and friction stir addtive manufacturing, metamaterials, and locomotive design. Some of his publications are listed as follows,

1. P. Ge, Z. Zhang, F.Y. Niu, J.Q. Chen, W.W. Liu, Z.M. Liu. Substrate design-based control of the residual distortion in directed energy deposition additive manufacturing, Journal of Thermal Stresses, 2022.

2. Hao Shi, Tao Wu, Qing Gong, Wenjin Ding, Yan Chai, Alfons Weisenburger, Litao Chang, Zhao Zhang, Kangli Wang, Julia Richter, Thomas Niendorf, Georg Müller. Hot corrosion behavior of additively manufactured stainless steel 316L and Inconel 718 in MgCl2/KCl/NaCl chloride salts at 700 ℃, Corrosion Science, 2022, 207: 110561.

3. X.X. Yao, X. Gao, Z. Zhang. Three-dimensional microstructure evolution of Ti–6Al–4V during multi-layer printing: a phase-field simulation, Journal of Materials Research and Technology, 2022, 20: 934-949.

4. X.X. Yao, Z. Zhang. Laser-particle interaction-based heat source model of laser powder bed fusion additive manufacturing, Optics and Laser Technology, 2022, 155: 108402.

5. J.Y. Li, Z. Zhang, D.X. Ren, W. Zhang, Z.J. Tan. The experimental and numerical studies on load bearing capacity in lamellar tearing of friction stir lap weld, Engineering Fracture Mechanics, 2022, 271: 108609.

6. J.Y. Li, S.N. Kong, C.K. Liu, B.B. Wang, Z. Zhang. Chemical composition effect on microstructures and mechanical properties in friction stir additive manufacturing, Acta Metallurgica Sinica (English Letters), 2022, 35: 1494–1508.

7. Z. Zhang, P. Ge, J.Y. Li, D.X. Ren, T. Wu. Monte Carlo simulations of solidification and solid-state phase transformation during directed energy deposition additive manufacturing, Progress in Additive Manufacturing, 2022, 7:671–682.

8. J.R. Li, J.C. Guo, Z. Zhang. The wave attenuations in phononic crystals based on unit cell and supercell relationship, Modern Physics Letters B, 2022, 36(14): 2250077.

9. Y.F. Wang, J.C. Guo, Z. Zhang. The deformation induced tunable topology in controlling of band gap characteristics for stepped phononic crystals, Solid State Communications, 2022, 351: 114809.

10.  H. Jing, P. Ge., Z. Zhang, J.Q. Chen, Z.M. Liu, W.W. Liu. Numerical studies of the effects of the substrate structure on the residual stress in laser directed energy additive manufacturing of thin-walled products, Metals, 2022, 12, 462.

11. X. Gao, X.X. Yao, F.Y. Niu, Z. Zhang. The influence of nozzle geometry on powder flow behaviors in directed energy deposition additive manufacturing, Advanced Powder Technology, 2022, 33(3): 103487.

12. J.C. Guo, Z. Zhang. Mass inertia moment-based design of band gap characteristics in zigzag beam-supported stepped phononic crystals, Applied Physics A, 2022, 128: 126.

13. Z.J. Tan, Z. Zhang. Band gap characteristics of friction stir additive manufactured phononic crystals, Physica Scripta, 2022, 97: 025702.

14. J.C. Guo, J.R. Li, L. Zhang, Z. Zhang. Wide range of wave attenuation in beam-supported stepped hybrid phononic crystals, Wave Motion, 2022, 108: 102827.

15. Z. Zhang, Y.F. Wang, P. Ge. T. Wu. A Review on Modelling and Simulation of Laser Additive Manufacturing: Heat Transfer, Microstructure Evolutions and Mechanical Properties, Coatings, 2022, 12: 1277.