Fundamentals of fiber-reinforced composites and molding methods, technologies for enhancing functionality.
S10605
★Explanation of know-how regarding the constituent materials of fiber-reinforced composites, molding methods for fiber-reinforced composites, improvement of heat resistance, enhancement of fire resistance, and increase in damage tolerance in a Q&A format!
Speaker Yoshiaki Someya, Representative of Shonan Material Technology Part-time lecturer at Shonan Institute of Technology, Technical Advisor at Best Link Trading Co., Ltd., Technical Advisor at OSE Co., Ltd. [Publications and Awards] Dictionary of Composite Material Utilization and Intermediate Materials (edited by the Japan Society for Composite Materials), Achievement Award from the Advanced Materials Technology Association Target Audience: Engineers, researchers, and beginners interested in fiber-reinforced composite materials Venue: Kawasaki City International Exchange Center, Conference Room 1 [Kanagawa, Kawasaki] 10-12 minutes walk from "Motosumiyoshi Station" on the Tokyu Toyoko Line and Tokyu Meguro Line Date and Time: June 22, 2011 (Wednesday) 13:00-16:30 Capacity: 30 people *Registration will close once full. Please apply early. Participation Fee: 46,200 yen (tax included, including text costs) for up to 2 people from one company ⇒ ◆ The invoice for 2 people can be split into 2 parts (please indicate "invoice split" in the remarks section) *New members who register for the first time by June 8 will receive an early bird discount price of 40,950 yen ◆ If 3 people from the same organization apply, the fee is 67,200 yen.
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basic information
Based on my experience in material development for prepregs for Boeing and Airbus, insulation materials for H-2 rocket fairings, and adhesives for Shinkansen floorboards, as well as in the manufacturing of aerospace components through vacuum bag autoclave molding and filament winding molding, I will explain the following in a Q&A format: 1) Constituent materials of fiber-reinforced composites, 2) Molding methods for fiber-reinforced composites, 3) Improvement of heat resistance, 4) Improvement of flame resistance, and 5) Improvement of damage tolerance, along with the practical aspects of "monozukuri" (manufacturing).
Price range
P2
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P2
Applications/Examples of results
1. What are fiber-reinforced composites made of? 1.1 Types of fibers 1.1.1 Carbon fibers 1.1.2 Aramid fibers 1.1.3 Glass fibers 1.1.4 Silicon carbide fibers 1.2 Forms of fibers 1.2.1 Roving 1.2.2 Fabrics 1.2.2.1 Three-dimensional fabrics 1.2.2.2 Multi-axial fabrics 1.3 Resins 1.3.1 Thermosetting resins 1.3.2 Thermoplastic resins 1.4 Prepregs 1.4.1 UD 1.4.2 Fabric prepreg 1.4.3 Tow prepreg 2. How are fiber-reinforced composites made? 2.1 Hand lay-up molding method 2.2 Vacuum bag/autoclave molding method 2.3 Vacuum forming 2.4 Filament winding molding method 2.5 Infusion molding method 2.6 RTM molding method 2.7 RFI molding method 2.8 Braiding molding method 2.9 SMC molding method 2.10 Press molding method 2.11 Spray-up molding method 2.12 Non-heated molding method 3. Improved heat resistance 4. Improved fire resistance 5. Improved damage tolerance
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