Bin Liang | Materials Science | Best Researcher Award

Published on by Innovation Technologist

Mr. Bin Liang | Materials Science | Best Researcher Award

Professor at Institute of Metal Research, Chinese Academy of Sciences, China

🌟 Dr. Bin Liang is a leading researcher in materials science and a Professor at IMR, CAS. With over 56 journal publications, 21 patents, and extensive contributions to advanced ceramics, he is at the forefront of innovation in high-performance materials. His expertise spans cutting-edge research and global collaborations, making a significant impact in both academia and industry. πŸŒπŸ“šπŸ”¬

Publication Profile :Β 

Scopus

Educational Background πŸŽ“

Dr. Bin Liang earned his Ph.D. in Materials Science from Harbin Institute of Technology (HIT) in 2017. During his doctoral studies, he expanded his academic horizon as a visiting scholar at the University of Michigan. Prior to his Ph.D., he laid the foundation for his expertise with rigorous education in materials science.

Professional Experience πŸ’Ό

Dr. Liang is a Professor at the Institute of Metal Research, Chinese Academy of Sciences (IMR, CAS), a position he has held since 2021. Before joining IMR, he was a postdoctoral researcher affiliated with Tsinghua Shenzhen International Graduate School (Tsinghua SIGS) at Tsinghua University. Over the years, Dr. Liang has been pivotal in advancing the field of materials science, particularly focusing on ceramics and ceramic (-metal) matrix composites. His international collaborations, notably with the Department of Materials Science and Engineering at the University of Michigan, further underscore his global impact.

Research Interests πŸ”¬

Dr. Liang’s research interests include advanced ceramics and ceramic (-metal) matrix composites. His work aims to achieve exceptional performance in structural and functional applications. His groundbreaking innovations include the development of highly dense, amorphous silicon-boron-carbon-nitrogen ceramics using high-pressure sintering and mechanical alloying, a first in the world. He also investigates the high-temperature properties and damage mechanisms of these materials under extreme conditions.

Publications πŸ“š

πŸ“„ A novel strategy to improve the corrosion resistance of SiCf/SiC composites in high-temperature combustion environments by cooperation of self-healing SiBCN and high-stability Yb2Si2O7
πŸ“š Authors: Liang, B., Ji, S., Pang, S., Zhao, R., Tang, S.
πŸ“˜ Journal: Surface and Coatings Technology, 2024, 489, 131098.
πŸ”’ Citations: 0

πŸ“„ Fracture mechanical and ablation behaviors of C/SiC–Cu3Si–Cu interpenetrating composites and their dependence on metal addition and interface thickness
πŸ“š Authors: Wu, Y., Liang, B., Zhao, R., Li, J., Tang, S.
πŸ“˜ Journal: Composites Part B: Engineering, 2024, 283, 111632.
πŸ”’ Citations: 1

πŸ“„ Low residual stress SiC coatings on C/CA composites by a strategy of matching their expansion behaviors to improve thermal shock resistance
πŸ“š Authors: Yan, M., Hu, C., Li, J., Luo, R., Tang, S.
πŸ“˜ Journal: Composites Communications, 2024, 48, 101891.
πŸ”’ Citations: 2

πŸ“„ Facile preparation of a SiC@SiO2 nanowire-toughened ZrB2–SiC/SiC bilayer coating with good interfacial bonding, high toughness, and excellent cyclic ablation resistance on C/CA composites
πŸ“š Authors: Yan, M., Hu, C., Li, J., Luo, R., Tang, S.
πŸ“˜ Journal: Journal of Advanced Ceramics, 2024, 13(4), pp. 486–495.
πŸ”’ Citations: 3

πŸ“„ Facile preparation of lightweight and robust carbon aerogel monoliths for high-temperature thermal insulation and oil-water separation
πŸ“š Authors: Li, J., Sun, B., Zuo, L., Cheng, H.-M., Tang, S.
πŸ“˜ Journal: Carbon, 2024, 218, 118734.
πŸ”’ Citations: 8

πŸ“„ Construction of C/SiC–Cu3Si–Cu interpenetrating composites for long-duration thermal protection at 2500 Β°C by cooperative active-passive cooling
πŸ“š Authors: Wu, Y., Zhao, R., Liang, B., Cheng, H.-M., Tang, S.
πŸ“˜ Journal: Composites Part B: Engineering, 2023, 266, 111015.
πŸ”’ Citations: 11

πŸ“„ Construction of a ceramic coating with low residual stress on C/CA composites for thermal protection at ultra-high temperatures
πŸ“š Authors: Yan, M., Hu, C., Li, J., Liang, B., Tang, S.
πŸ“˜ Journal: Composites Part B: Engineering, 2023, 266, 110970.
πŸ”’ Citations: 16

πŸ“„ Mechanical Properties and Oxidation Behaviors of Self-Healing SiCf/SiC-SiBCN Composites Exposed to H2O/O2/Na2SO4 Environments
πŸ“š Authors: Ji, S., Liang, B., Hu, C., Li, J., Tang, S.
πŸ“˜ Journal: Acta Metallurgica Sinica (English Letters), 2023, 36(11), pp. 1909–1923.
πŸ”’ Citations: 2

πŸ“„ Self-densification behavior, interfacial bonding, and cyclic ablation resistance of HfSi2-ZrSi2 modified SiC/ZrB2-SiC/SiC coating for Cf/SiC composite
πŸ“š Authors: Tang, P., Hu, C., Pang, S., Wang, L., Tang, S.
πŸ“˜ Journal: Corrosion Science, 2023, 219, 111223.
πŸ”’ Citations: 11

πŸ“„ Insight into the origin of oxidation behaviors of carbon fiber reinforced carbon aerogel composites with different porous skeletons
πŸ“š Authors: Zhang, W., Hu, C., Li, J., Liang, B., Tang, S.
πŸ“˜ Journal: Carbon, 2023, 209, 118008.
πŸ”’ Citations: 6