Director at Surface Engineering Design Laboratory, Shibaura Institute of Technology, Japan
Prof. Dr. Tatsuhiko Aizawa is a distinguished Japanese researcher and academic leader in surface engineering, materials science, and advanced manufacturing technologies. He has contributed extensively to micro-manufacturing, tribology, powder metallurgy, materials processing, and innovative engineering systems through sustained interdisciplinary research. His academic career includes leadership roles at prominent universities and international collaborations that strengthened global manufacturing science. He has authored a vast body of influential scholarly publications and secured numerous patents related to manufacturing innovation and materials engineering. His work has significantly advanced sustainable processing methods, industrial tribology applications, and precision engineering, establishing him as a respected authority in advanced materials and manufacturing research.
Professional Profiles
Education
Prof. Dr. Tatsuhiko Aizawa completed advanced doctoral studies in engineering and materials science at a leading Japanese university recognized internationally for excellence in aerospace, manufacturing, and applied engineering research. His academic training established a strong foundation in materials processing, mechanical behavior of engineering materials, tribology, and surface engineering science. Through rigorous scientific education, he developed expertise in manufacturing innovation, precision engineering, and advanced materials characterization. His scholarly background enabled him to integrate theoretical engineering principles with industrial manufacturing applications. The educational environment also encouraged interdisciplinary collaboration, contributing to his long-term achievements in materials engineering, sustainable processing technologies, micro-manufacturing systems, and industrial innovation research.
Professional Experience
Prof. Dr. Tatsuhiko Aizawa has extensive academic and research experience in aerospace engineering, materials science, manufacturing innovation, and surface engineering. He served in progressive academic positions including research associate, lecturer, associate professor, professor, and research professor at internationally recognized institutions in Japan and Canada. His professional career has focused on integrating advanced manufacturing technologies with industrial applications in tribology, powder metallurgy, micro-fabrication, and precision engineering. He currently leads research initiatives in surface engineering and manufacturing systems while mentoring researchers and advancing interdisciplinary engineering collaborations. His experience reflects sustained contributions to academic excellence, industrial innovation, materials processing technologies, and international scientific cooperation in engineering research.
Research Interest
Prof. Dr. Tatsuhiko Aizawa’s research focuses on surface engineering, micro-manufacturing, tribology, materials processing, powder metallurgy, and advanced manufacturing innovation. His work emphasizes sustainable engineering methods, precision fabrication technologies, and functional surface modification for industrial applications. He has contributed significantly to the development of advanced processing techniques for metallic materials, tool engineering, dry forging systems, and tribological performance enhancement. His interdisciplinary studies integrate materials science, manufacturing engineering, and industrial technology to improve processing efficiency and material functionality. Research activities also include carbon supersaturation treatments, precision forming technologies, and innovative materials engineering solutions aimed at enhancing manufacturing sustainability, industrial productivity, and high-performance engineering applications.
Award and Honor
Prof. Dr. Tatsuhiko Aizawa has received numerous prestigious honors from leading engineering and metallurgical societies for outstanding contributions to materials science, manufacturing innovation, tribology, and powder metallurgy. His recognitions include distinguished achievement awards, gold medals, advanced research awards, best paper honors, and presentation excellence awards from professional engineering organizations and international scientific conferences. He has also been recognized for industrial technology innovation related to advanced treatment processes for engineering materials. Academic societies acknowledged his pioneering contributions to plasticity technology, manufacturing science, and materials engineering through emeritus recognition and research achievement distinctions. These honors reflect sustained excellence in interdisciplinary engineering research and technological innovation.
Conclusion
Prof. Dr. Tatsuhiko Aizawa is an internationally respected engineering researcher whose contributions to surface engineering, tribology, micro-manufacturing, and materials processing have significantly advanced modern manufacturing science. His extensive scholarly publications, patents, academic leadership, and internationally recognized honors demonstrate sustained excellence in interdisciplinary engineering innovation. Through pioneering research in sustainable manufacturing technologies and advanced materials engineering, he has strengthened both academic knowledge and industrial applications. His influential scientific achievements continue to inspire global research development in precision engineering, manufacturing systems, and advanced materials processing.
Publication Top Notes
Title: “Nanotexturing onto Laser-Microtextured Surface via Nickel Wet-Plating for IR-Emissivity Control”
Author: Tatsuhiko Aizawa; Hiroki Nakata; Takeshi Nasu
Year: 2026
Citation: Journal of Manufacturing and Materials Processing
DOI: 10.3390/jmmp10030095
Title: “Laser Micromachining for the Nucleation Control of Nickel Microtextures for IR Emission”
Author: Tatsuhiko Aizawa; Hiroki Nakata; Takeshi Nasu
Year: 2025
Citation: Micromachines
DOI: 10.3390/mi16060696
Title: “Punch Edge Topological Design for Reduction of Work Hardening Damage in Shearing of Non-Oriented Electrical Steel Sheets”
Author: Ryoma Okada; Kentaro Ito; Tatsuya Funazuka; Tatsuhiko Aizawa; Tomomi Shiratori
Year: 2025
Citation: Materials
DOI: 10.3390/ma18040878
Title: “Dry Cold Forging of High Strength AISI316 Wires by Massively Nitrogen Supersaturated CoCrMo Dies”
Author: Tatsuhiko Aizawa; Tatsuya Fukuda; Tomomi Shiratori
Year: 2024
Citation: Processes
DOI: 10.3390/pr12112561
Title: “Galling-Free Dry Near-Net Forging of Titanium Using Massively Carbon-Supersaturated Tool Steel Dies”
Author: Tatsuhiko Aizawa; Takeshi Kihara; Tomomi Shiratori
Year: 2024
Citation: Materials
DOI: 10.3390/ma17194849
Title: “Galling-Free Forging of Titanium Using Carbon-Supersaturated SiC Coating Dies”
Author: Tatsuhiko Aizawa; Tatsuya Fukuda
Year: 2024
Citation: Lubricants
DOI: 10.3390/lubricants12090309
Title: “Dry, Cold Forging of Oxygen-Free Copper by Massively Nitrogen-Supersaturated CoCrMo Dies”
Author: Tatsuhiko Aizawa; Tatsuya Funazuka; Tomomi Shiratori
Year: 2024
Citation: Metals
DOI: 10.3390/met14070755
Title: “Micro-/Meso-Structure Control of Multi-Hostmetal Alloys by Massive Nitrogen Supersaturation”
Author: Tatsuhiko Aizawa
Year: 2024
Citation: Materials
DOI: 10.3390/ma17061294
Title: “Two-Step PM Procedure for Fabrication of Super-Engineering Plastic Gears”
Author: Tatsuhiko Aizawa; Tomohiro Miyata; Kiyoyuki Endoh
Year: 2024
Citation: Machines
DOI: 10.3390/machines12030174
Title: “In Situ Lubrication in Forging of Pure Titanium Using Carbon Supersaturated Die Materials”
Author: Tatsuhiko Aizawa; Tatsuya Funazuka; Tomomi Shiratori
Year: 2024
Citation: Nanomaterials
DOI: 10.3390/nano14040363