Ruixi Zhang | Mechanical Engineering Award | Best Researcher Award

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Assist Prof Dr Ruixi Zhang | Mechanical Engineering Award | Best Researcher Award

Assist Prof Dr Ruixi Zhang, Nagoya University, Japan

Dr. Zhang Ruixi is an Assistant Professor in the Department of Micro-Nano Mechanical Science and Engineering at Nagoya University, Japan 🇯🇵. He earned his B.S. from Northeastern University, China 🇨🇳 in 2017, his M.S. from Nagoya University in 2020, and his Ph.D. from The University of Tokyo in 2023. His research focuses on carbon-based materials like Diamond-like Carbon (DLC) coatings and carbon nanotubes, exploring their tribological properties and structural characteristics 🧪. Dr. Zhang is a member of The Japan Society of Mechanical Engineers and the Japanese Society of Tribologists 🏅.

Publication Profile

Scopus

Education

Dr. Zhang Ruixi completed his B.S. in Mechanical Engineering and Automation at Northeastern University, Shenyang, China 🇨🇳, from September 2013 to July 2017. He then pursued his M.S. in the Department of Micro-Nano Mechanical Science and Engineering at Nagoya University, Japan 🇯🇵, from April 2018 to March 2020. Following this, he earned his Ph.D. in Bioengineering from The University of Tokyo, Japan 🇯🇵, from April 2020 to March 2023. Dr. Zhang’s academic journey reflects a strong commitment to advancing his expertise in engineering and nanotechnology 🧪.

Experience

Since April 2023, Dr. Zhang Ruixi has been serving as an Assistant Professor in the Department of Micro-Nano Mechanical Science and Engineering at Nagoya University, Japan 🇯🇵. In this role, he continues to contribute to advanced research in the fields of nanotechnology and engineering, focusing on the development and application of carbon-based materials 🧪. His position allows him to mentor students, lead cutting-edge projects, and collaborate with other experts in the field, fostering innovation and academic excellence 🌟.

Research Focus

Dr. Zhang Ruixi’s research primarily focuses on the development and characterization of carbon-based materials, particularly Diamond-like Carbon (DLC) coatings 🧪. His work investigates the tribological properties, such as friction and wear, of these materials under various conditions, including high temperatures. He also explores the synthesis and structural properties of one-dimensional hetero-nanotubes, such as boron nitride nanotubes. By employing advanced techniques like in situ reflectance spectroscopy, Dr. Zhang aims to enhance the performance and application of these materials in various engineering fields 🌟. His research contributes significantly to advancements in nanotechnology and materials science 🏅.

 

Publication Top Notes

Fabricating one-dimensional van der Waals heterostructures on chirality-sorted single-walled carbon nanotubes by Zhang, R. et al., Carbon, 2022, 199, pp. 407–414 📚 (Cited by 3)

In situ Observation of the Formation of MoDTC-Derived Tribofilm on a Bearing Steel with Different Surface Roughness by Using a Reflectance Spectroscopy and Its Effects on Friction by Hashizume, N. et al., Tribology Letters, 2024, 72(1), 17 📚 (Cited by 0)

The Effect of Carbon Structure of DLC Coatings on Friction Characteristics of MoDTC-Derived Tribofilm by Using an In Situ Reflectance Spectroscopy by Hashizume, N. et al., Tribology Letters, 2024, 72(1), 30 📚 (Cited by 1)

Sihao Han | Mechanical Engineering Award | Best Researcher Award

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Dr Sihao Han | Mechanical Engineering Award | Best Researcher Award

Dr Sihao Han , South China University of Technology , China

Publication profile 

Google Scholar

Education and Experience

Sihao Han is currently pursuing his PhD in Mechanics at South China University of Technology, building upon his Bachelor’s degree in Mechanical Engineering from Southwest Jiaotong University. His academic journey is marked by a commitment to excellence and a passion for pushing the boundaries of knowledge in his field.

Academic Achievements 

Sihao’s research is centered on solid mechanics, with a keen focus on understanding the wave characteristics and impact behavior of acoustic/mechanical metamaterials. Additionally, he is dedicated to advancing the development of multifunctional metamaterials. His goal is to leverage the power of artificial intelligence to revolutionize the application of metamaterials in demanding engineering contexts.

 

Research Focus

Sihao Han’s research centers on the innovative field of metamaterials, with a particular emphasis on their applications in energy absorption, vibration insulation, and wave propagation. His work involves the design and optimization of re-entrant honeycomb metamaterials and phononic crystals, leveraging advanced techniques like deep learning and reinforcement learning. Sihao’s studies aim to enhance the performance of these materials in demanding engineering applications, contributing to areas such as impact mitigation and load-bearing capacity. Through his interdisciplinary approach, Sihao bridges mechanical engineering with artificial intelligence to push the boundaries of materials science. 🚀🛠️

Publication Top Notes
  1. 📚 “Hierarchical re-entrant honeycomb metamaterial for energy absorption and vibration insulation” – N Ma, Q Han, S Han, C Li, International Journal of Mechanical Sciences 250, 108307, 2023 (47 citations)
  2. 📚 “Design and reinforcement-learning optimization of re-entrant cellular metamaterials” – S Han, Q Han, N Ma, C Li, Thin-Walled Structures 191, 111071, 2023 (10 citations)
  3. 🧠 “Deep-learning-based inverse design of phononic crystals for anticipated wave attenuation” – S Han, Q Han, C Li, Journal of Applied Physics 132 (15), 2022 (9 citations)
  4. 🧠 “Inverse design of phononic crystals for anticipated wave propagation by integrating deep learning and semi-analytical approach” – S Han, Q Han, T Jiang, C Li, Acta Mechanica 234 (10), 4879-4897, 2023 (8 citations)
  5. 🔄 “Complex dispersion relations and evanescent waves in periodic magneto-electro curved phononic crystal plates” – S Han, Q Han, T Jiang, C Li, Applied Mathematical Modelling 119, 373-390, 2023 (3 citations)
  6. 📐 “Design and optimization of the dual-functional lattice-origami metamaterials” – T Jiang, S Han, Q Han, C Li, Composite Structures 327, 117670, 2024 (2 citations)
  7. ⚡ “Parametric electro-mechanical dispersive behaviors of guided waves in the functionally graded piezoelectric annular plate” – C Li, D Xiao, S Han, Q Han, ZAMM-Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte, 2023 (1 citation)
  8. 🛠️ “Machine learning-based optimal design of an acoustic black hole metaplate for enhanced bandgap and load-bearing capacity” – S Han, N Ma, Q Han, C Li, Mechanical Systems and Signal Processing 215, 111436, 2024
  9. 📏 “Compressive response and optimization design of a novel hierarchical re-entrant origami honeycomb metastructure” – N Ma, S Han, W Xu, Q Han, C Li, Engineering Structures 306, 117819, 2024
  10. 📏 “Design and compressive behaviors of the gradient re-entrant origami honeycomb metamaterials” – N Ma, S Han, Q Han, C Li, Thin-Walled Structures 198, 111652, 2024
  11. 🔧 “A novel multi-resonator honeycomb metamaterial with enhanced impact mitigation” – H Zheng, S Han, S Li, Q Han, C Li, European Journal of Mechanics-A/Solids, 105272, 2024