Development and enhancement of plant-based polyurethane and its application in automotive components.
S50225
To impart functions equal to or greater than those derived from fossil resources,
【Venue】 Tokyo Chuo Ward Industrial Hall, 4th Floor, Meeting Room 1【Tokyo, Chuo Ward】 【Date and Time】February 24, 2015 (Tuesday) 13:30-16:15 【Speakers】 Part 1: Hiroaki Koizai, Professor, Faculty of Science and Technology, Kanto Gakuin University Part 2: Satoshi Yamazaki, Group Leader, Special Polyurethane Materials Development Group, Mitsui Chemicals, Inc. (also serving in the Corporate Planning Department), Ph.D. (Engineering)
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basic information
**Lecture 1: Purpose of the Presentation** Currently, from the perspective of developing materials in harmony with the global environment, the utilization of plant-derived raw materials, which are renewable resources, is being emphasized. In this presentation, I will introduce the properties and functions of polyurethanes synthesized from polyols that incorporate ester bonds using castor oil-derived materials. **Lecture 2: Purpose of the Presentation** Research on biopolymers is actively being conducted as a means to suppress carbon dioxide emissions; however, the physical properties of these materials often do not reach a satisfactory level compared to those derived from fossil resources. Furthermore, simply converting to bio-based raw materials has made it difficult for these products to be accepted in the market, and there is a demand for functions that are equal to or exceed those of fossil resource-derived materials. In this context, our company is developing bio-based polyurethanes with the goal of imparting functions that can be realized by utilizing bio-resources. This presentation will outline the characteristics of the bio polyols and bio isocyanates we have developed, as well as their application in automotive components.
Price information
From February 11 onwards, it will be 49,680 yen (including tax and text costs) for 2 people from 1 company.
Price range
P2
Delivery Time
P2
Applications/Examples of results
Part 1: Synthesis of Novel Polyurethanes from Plant-Derived Materials and Their Characteristics 【13:30-14:45】 【Lecture Program】 1. What is polyurethane? 2. Ring-opening reaction using ricinoleic acid, the main component of castor oil 3. Synthesis of polyurethane from polyols with ester bonds introduced into ricinoleic acid 4. Synthesis of polyurethane from prepolymer method using bis(2-hydroxyethyl) terephthalate 5. Reaction between castor oil and lysine ester triisocyanate derived from amino acids 6. Synthesis of novel photocurable resins using castor oil 7. Synthesis of polyurethane foam using castor oil 【Q&A and Business Card Exchange】 Part 2: Development of Plant-Derived Polyurethanes and Their Application in Automotive Components 【15:00-16:15】 1. The Science of Polyurethane 2. Raw Materials for Polyurethane 3. Bio Polyols 4. Bio Isocyanates 4-1 Development Concept 4-2 Characteristics of Bio Isocyanates and Derivatives 4-3 Application to Automotive Coating Materials 5. Future Challenges 【Q&A and Business Card Exchange】
Company information
Our company has developed its business from "seminar planning" to various forms such as "lecturer dispatch," "publishing planning," "technical consultant dispatch," "trend research," "business matching," and "business development consulting," in order to support clients in a wide range of fields including chemistry, electronics, automotive, energy, medical devices, food, and building materials. By doing so, we have advanced our company and opened up new markets. AndTech promises to continue listening to our clients' voices, entering the business areas and markets they desire, and to remain a company that is loved by our clients, as we share their challenges, think together, and forge new paths.