We are pleased to announce that the 1st international conference on Creation of Materials by Superthermal Field 2023 (CMSTF2023) will be held at “Yuichi Yamamura Memorial Hall” of Life Science Center in Senri-Chuo, Osaka, Japan from November 15 to 17, 2023.
This conference is held as a part of the project “Creation of Materials by Super-Thermal Field: Neo-3D printing by Manipulating Atomic Arrangement through Giant Potential Gradient”. The target of this area is the mechanisms of unique crystal growth under super-thermal fields generated by local heating by electron beams or lasers, which have been found to occur in metal 3D printing (3DP). Studies conducted in this project include, “Advanced in-situ observations, such as high-speed temperature field analysis”, “Synchrotron X-ray transmission imaging”, Computer Simulations, such as computational thermal fluid dynamics (CtFD), phase-field (PF) method, molecular dynamics (MD), and their validation by experiments to elucidate the mechanisms. Furthermore, artificial intelligence analyzes the process of microstructure to structure performance correlation and establishes the Science for Creation of Materials by Superthermal Field, which contributes to the creation of new materials, such as 3DP of high-quality single-crystals. The outcomes will contribute to a great novelty in materials science.
The scope of this conference includes, but is not limited to, scientific studies on experiments, computer simulations, and data sciences related to the following topics
• Interactions between quantum beams and materials in the formation of superthermal fields
• Crystal growth in superthermal fields represented by a temperature gradient higher than (10,000,000 K/m)
• Large thermal strain and their relaxation
• Giant Marangoni effect associated with these phenomena
• Creation of new materials by utilizing the super-thermal field
• Microstructure and material properties of materials grown in the super-thermal field
We look forward to welcoming you to Osaka to participate in the conference.