Toughening and fatigue resistance improvement of epoxy resin and epoxy resin-based composites.
S11118
Learn about the mechanisms for improving the toughness of composite materials using epoxy resin and enhancing the fatigue properties of epoxy resin!
Lecturer Professor Hajime Kishi, Department of Environmental Energy Engineering, Graduate School of Engineering, Hyogo Prefectural University (Formerly worked at Toray Industries, Inc. Composite Materials Research Laboratory) Target Audience: Company representatives interested in epoxy resins, composite materials, and CFRP Venue: Kawasaki City Educational and Cultural Center, Room 3【Kanagawa, Kawasaki City】 Access: 12-minute walk from JR or Keikyu Line Kawasaki Station Date and Time: November 30, 2011 (Wednesday) 13:00-16:30 Capacity: 30 people *Please apply early as there may be a rush of applications. Participation Fee: 【Early Bird Discount Price】46,200 yen (tax included, including text costs) for up to 2 people from one company *Limited to Tech-Zone members who apply by November 16. Membership registration is free. *After November 16, the regular price will be 49,350 yen (tax included, including text costs) for up to 2 people from one company.
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basic information
This paper explains the toughening technologies and fatigue resistance improvement techniques under repeated stress for epoxy resins and their composites, which are widely used in structural and electronic materials, along with the mechanisms of physical property manifestation.
Price range
P2
Delivery Time
P2
Applications/Examples of results
1. Introduction to the Fracture Mechanics of Plastics 1-1 Stress Intensity Factor 1-2 Fracture Toughness and Critical Strain Energy Release Rate 1-3 Fracture Toughness of Plastics 2. Toughening of Epoxy Resins and Mechanisms of Physical Property Development 2-1 Stress and Deformation/Fracture Modes 2-2 Effect of Molecular Weight Between Crosslinking Points 2-3 Mechanism of Toughening by Elastomers 2-4 Mechanism of Toughening by Thermoplastic Resins 2-5 Mechanism of Toughening by Inorganic Fillers 3. Fracture Toughness of Continuous Fiber Reinforced Composites 3-1 Stress and Fracture Modes 3-2 Toughening Techniques 4. Fatigue of Epoxy Resins 4-1 Application of Fracture Mechanics to Fatigue Phenomena 4-2 Toughening by Elastomers and Fatigue Resistance 4-3 Toughening by Thermoplastic Resins and Fatigue Resistance 4-4 Toughening by Inorganic Fibers and Fatigue Resistance
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