★Improvement of adhesion at the interface between inorganic (fillers and fine particles) and organic materials★Enhancement of compatibility in composite materials (nano-hybrids, hard coatings)
【Lecturer】 Professor Yamada Yasuji, Department of Biomolecular Engineering, Graduate School of Arts and Design, Kyoto Institute of Technology, Center for Creative Collaboration 【Venue】 Tekuno Kawasaki 5F, Room 5 【Date and Time】 March 28, 2011 (Monday) 12:30-16:30
Inquire About This Product
basic information
**Course Objectives and Aims** In general, organic materials such as polymers and inorganic materials such as silica have a large difference in surface energy, resulting in poor compatibility. Therefore, silane coupling agents are used to reduce the interfacial tension between organic and inorganic materials, enhancing the compatibility of both components and improving the dispersibility of inorganic materials. Silane coupling agents are essential compounds for improving adhesion at the interface between inorganic components (fillers or fine particles) and organic components (polymers) and for enhancing the compatibility of composite materials. In recent years, there has been active research on the development of organic-inorganic nanocomposite/nanohybrid materials using sol-gel methods and inorganic fine particles, where silane coupling agents play an important role. This overview will cover the types, functions, mechanisms of action, usage, treatment effects, and applications of silane coupling agents, from the basics to their applications.
Price information
New members who apply for the first time by March 15 will receive an early bird discount price of 44,100 yen.
Price range
P2
Delivery Time
P2
Applications/Examples of results
1. Overview of Silane Coupling Agents 1-1 What are Silane Coupling Agents 1-2 Types of Silane Coupling Agents 1-3 Functions of Silane Coupling Agents 1-4 How to Use Silane Coupling Agents 2. Reactions of Silane Coupling Agents and Mechanism of Interface Layer Formation 2-1 Main Reactions of Silane Coupling Agents 2-2 Hydrolysis Mechanism 2-3 Hydrolysis Reaction and Condensation Reaction 2-4 Reactivity (Reaction Rate) 2-5 Effect of pH on Hydrolysis and Condensation Reactions 2-6 Mechanism of Action on Inorganic Materials 2-7 Mechanism of Action on Organic Materials - Reaction with Polymer Side Chains and Terminal Functional Groups - Graft Reaction on Polymer Main Chains - Copolymerization with Various Monomers - Compatibility with Polymers 3. Applications of Silane Coupling Agents 3-1 Crosslinking of Resins and Elastomers 3-2 Application to Composites (Compounds) 3-3 Application to Paints and Coatings 3-4 Application to Organic-Inorganic Nanocomposites/Nanohybrids [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.