Prof. Dr. Tomomi Shiratori | Micro-cutting | Best Researcher Award

Prof. Dr. Tomomi Shiratori, University of Toyama, Japan

Dr. Tomomi Shiratori is a Professor of Engineering at the University of Toyama, specializing in plastic processing, micro-cutting, and die technology. Born in Suwa, Nagano, Japan (1971) 🇯🇵, he graduated from Chiba Institute of Technology 🎓 and later earned a Ph.D. in Engineering from Tokyo Metropolitan University (2017) 🏛️. With decades of experience in precision machining, he has worked extensively in micro-hole punching, shear processing, and tool durability enhancement 🔧. As Chairperson of the Nano/Micro Processing Subcommittee (2025) ⚙️, he continues to lead advancements in manufacturing technology, optimizing machining processes for sustainability and durability.

Professional Profile:

Scopus

Orcid

Suitability of Dr. Tomomi Shiratori for the Best Researcher Award 🏆

Dr. Tomomi Shiratori is a renowned expert in precision machining, plastic processing, and micro-cutting, with decades of contributions to advanced manufacturing and sustainable machining processes. His research in die technology, tool durability, and micro-fabrication techniques has led to significant industrial advancements. As a professor at the University of Toyama and Chairperson of the Nano/Micro Processing Subcommittee (2025), Dr. Shiratori has pioneered innovations in high-precision manufacturing, optimizing machining for efficiency and sustainability. His numerous awards, impactful research, and leadership make him a strong candidate for the Best Researcher Award.

Education & Experience 🎓👨‍🔬

• 🎓 1994 – B.Eng. in Mechanical Engineering – Chiba Institute of Technology

• 🏛️ 2017 – Ph.D. in Engineering – Tokyo Metropolitan University

• ⚙️ 1994 – Joined Komatsuseiki Kosakusho Co., Ltd. – Specialized in micro-precision die assembly & press processing

• 🏭 1998 – Production Technology Department – Advanced manufacturing processes

• 🔍 2011 – R&D in Micro-Hole Punching – Focused on tool life improvement

• 🛠️ 2013 – Research & Development Division

• 🎓 2019 – Professor, Faculty of Engineering – University of Toyama

• 🧑‍🏫 2025 – Chairperson, Nano/Micro Processing Subcommittee, Japan Society for Plasticity Processing

Professional Development  🚀

Dr. Shiratori has dedicated his career to advancing precision machining, micro-cutting, and die processing. His research focuses on plastic forming technologies such as shearing, extrusion, forging, and drawing 🛠️. As a professor at the University of Toyama, he actively contributes to developing sustainable manufacturing techniques, including direct recycling processes♻️. He has played a crucial role in optimizing cutting tools and micro-fabrication techniques for enhanced tool durability. As Chairperson of Japan’s Nano/Micro Processing Subcommittee (2025)⚙️, he leads innovations in high-precision machining, ensuring industry advancements in smart manufacturing and sustainable production 🌍.

Research Focus  🔬

Dr. Shiratori’s research spans plastic processing, micro-cutting, and die technology. His work involves shearing, extrusion, forging, and bending techniques, focusing on soft magnetic materials, aluminum alloys, and CFRP composites ⚙️🔬. He aims to optimize machining processes from micro to macro scales, ensuring high durability and precision. His recent work includes developing SDG-friendly aluminum extrusion processes ♻️, improving die materials using CoCrMo for better tool life, and studying fracture mechanics in shear processing. By refining machining conditions, he advances high-quality, sustainable, and efficient manufacturing techniques, benefiting industries from automotive to electronics 🚘💡.

Awards & Honors 🏆🎖️

• 🏅 2016.06 – Japan Society for Plasticity Processing Technology Development Award
• 🏆 2019.06 – Mold Technology Association Paper Award
• 🎖️ 2021.11 – 37th Materials Industry Technology Award (Ministry of Economy, Trade & Industry – Manufacturing Industry Director’s Award)
• 🥇 2022.06 – Japan Society for Plasticity Processing Technology Development Award

Publication Top Notes:

• 🔩 Dry Cold Forging of High Strength AISI316 Wires by Massively Nitrogen Supersaturated CoCrMo Dies

• 🔧 Galling-Free Dry Near-Net Forging of Titanium Using Massively Carbon-Supersaturated Tool Steel Dies

• ⚙️ Dry, Cold Forging of Oxygen-Free Copper by Massively Nitrogen-Supersaturated CoCrMo Dies

• 🛠️ In Situ Lubrication in Forging of Pure Titanium Using Carbon Supersaturated Die Materials

• 🏭 Direct Recycling of AA6063 Chips by Hot Extrusion Applying Pseudo Porthole Die (Conference Paper)
  
  📊 1 Citation