Repair mechanisms in self-healing materials and the imparting of scratch resistance to coatings.
S30268
★The capabilities of self-repair functions through touch panels and coatings ★Polymer materials, nanoparticles, pH-sensitive organic repair agents, fine particle composite polymers
Tokyo Chuo Ward Industrial Hall, 4th Floor, Meeting Room 2 [Tokyo, Chuo Ward] February 14, 2013 (Thursday) 11:00-16:00 [Instructors] Part 1: Bayer MaterialScience LLC Part 2: Hiroshima University Part 3: National Institute of Advanced Industrial Science and Technology [Details URL] http://ec.techzone.jp/products/detail.php?product_id=3164
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basic information
**Part 1: Summary of the Lecture** One of the advancements in the functionality and durability of everyday products is the enhancement of scratch resistance. Various methods exist, and this presentation will explain the self-healing properties as one of the functional enhancements of polyurethane coatings and how they contribute to scratch resistance. **Part 2: Summary of the Lecture** Coating treatment is a method to prevent corrosion of metallic materials, and self-healing, where a new protective film is naturally formed in the event of defects, is effective. This presentation will discuss self-healing anti-corrosion coatings that utilize the properties of various polymer materials, nanoparticles, pH-sensitive organic repair agents, and microparticle composite polymers. **Part 3: Summary of the Lecture** In recent years, various self-healing materials have been developed. We have focused on the gel state that emerges in microparticle/liquid crystal composite materials with dispersed microparticles as a new self-healing material, and we have developed a light-repairable gel based on photochemical reactions of photochromic compounds utilizing gel-sol light control technology. This lecture will reflect on the history of self-healing material research and introduce the details of the microparticle/liquid crystal composite gel material we developed that can repair damage with light.
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After January 31, the regular price will be 55,650 yen (including tax and text costs) for 2 people from 1 company.
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P2
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P2
Applications/Examples of results
Part 1: Granting Self-Healing Functionality with Polyurethane Coatings 1. Basics of Polyurethane Coatings 2. What is Self-Healing Functionality? 3. Directions for Scratch Prevention 3-1. Scratch Prevention through Hard Coatings 3-2. Self-Healing 4. Future Directions 4-1. HS 4-2. WB Part 2: Development of Self-Healing Corrosion-Resistant Coatings for Metal Materials and Its Philosophy 1. Corrosion Phenomena of Metal Materials 2. What are Self-Healing Corrosion-Resistant Coatings? 3. Self-Healing Polymer Coatings 4. Fluorocarbon Self-Healing Surface Treatments 5. Self-Healing Coatings Using Nanoparticles and Organic Repair Agents 6. Self-Healing with Microparticle Composite Polymers Part 3: Development and Prospects of Microparticle/Liquid Crystal Composite Gel Materials Capable of Repairing Damage with Light 1. Self-Healing Materials 2. History of Self-Healing Material Research 3. Liquid Crystal-Based Gel Materials 4. Application of Microparticle/Liquid Crystal Composite Gel Materials to Light Repairable Materials [Q&A and Business Card Exchange]
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