What is percolation? The basic content of percolation theory, evaluations using it, thresholds, and the mechanism of physical property manifestation in conductive composite materials!
Key points of formulation technology considering the properties of various materials (CB, graphite, carbon fiber, CNT, graphene, metals).
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Speaker: Kobayashi Technical Consultant Office, Director, Technical Consultant, Mr. Seio Kobayashi Target Audience: Engineers, researchers, and relevant departments interested in the percolation phenomenon of conductive composites and filler formulation. Venue: Tekuno Kawasaki, 5th Floor, Room 5 [Kanagawa, Kawasaki] 8 minutes on foot from the East Exit of Tokyu Mizonokuchi Station, 8 minutes on foot from the North Exit of JR Musashi-Mizonokuchi Station. Date and Time: July 19, 2011 (Tuesday) 10:30 AM - 4:00 PM
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【Early Bird Discount Price】46,200 yen (including tax, lunch fee, and textbook cost) for up to 2 participants from one company. *This is limited to Tech-Zone members who apply by July 5. Membership registration is free. *After July 5, the 【Regular Price】 will be 49,350 yen (including tax, lunch, and textbook cost) for up to 2 participants from one company.
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P2
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Part 1. Conductive Mechanisms of Conductive Composite Materials 1. Fundamentals of Percolation Theory 2. Conductive Mechanism Models of Conductive Resin Compounds 2-1 Statistical Percolation Model 2-2 Effective Media Model 2-3 General Effective Media (GEM) Model 2-4 Dynamic Percolation Model 3. Control of Wettability and Dispersion through Surface Modification of Conductive Fillers 3-1 Surface Modification with Coupling Agents 3-2 Surface Modification through Polymer Grafting 4. Evaluation Methods for the Dispersion State of Conductive Filler-Loaded Resins 4-1 Image Statistical Analysis 4-2 Small-Angle X-ray Scattering Method 4-3 Dynamic Viscoelasticity 5. Measurement Methods for Electrical Resistance (Conductivity) of Conductive Filler-Loaded Resins 5-1 Two-Terminal Method (2-Pin Method) 5-2 Four-Terminal Method (4-Pin Method) 5-3 van der Pauw Method Part 2. Properties of Conductive Composite Materials (Detailed Discussion) 1. Properties of Carbon-Based Filler-Loaded Resins 2. Properties of Metal Filler-Loaded Resins 3. Properties of Conductive Polymer-Loaded Resins
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