Fundamentals of mechanics, strength, rigidity, lightweight design, stress analysis, fatigue life evaluation, plastic deformation, and forming processes! Understanding the mechanisms to prevent fatigue and fracture.
Lecturer Professor Sōjin Yoshida, Ph.D. Graduate School of Engineering, Hiroshima University Target Audience: Individuals responsible for materials related to automobiles, such as steel and forming processing technologies. Venue: Tekuno Kawasaki, 4th Floor Conference Room [Kanagawa, Kawasaki] 8 minutes on foot from the East Exit of Tokyu Mizonokuchi Station and JR Musashi-Mizonokuchi Station. Date and Time: December 8, 2011 (Thursday) 13:30-16:30 Capacity: 30 people. *Registration will close once full. Please apply early. Participation Fee: [Early Bird Discount Price] 46,200 yen (tax included, including text costs) for 2 participants from 1 company. *Limited to Tech-Zone members who apply by November 24. Membership registration is free. *After November 24, the [Regular Price] will be 49,350 yen (tax included, including text costs) per person.
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basic information
【Purpose of the Course】 It is important to consider the applications of materials based on a good understanding of their mechanical properties and elastoplastic mechanics. In the lecture, I will discuss topics that are commonly mentioned in design development and production, such as "the difference between strength and stiffness," "does making a material harder make it stronger?," "why is stress analysis important? What exactly is FEM?," "how can we achieve weight reduction?," "how advanced is the simulation of plastic processing? What are the benefits of using it?," and "how do we estimate fatigue life?" I will organize and present the fundamental concepts behind these matters. Additionally, I will include the latest case studies specifically related to plastic processing simulations.
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P2
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P2
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**Program** 1. Mechanical Properties of Materials and Their Testing Methods 1-1 Tensile Test (Young's Modulus, Yield Strength, Tensile Strength, etc.) 1-2 Various Material Tests (Hardness, Fracture Toughness, Fatigue, Creep) 2. Fundamentals of Elastic Mechanics 2-1 Stress and Strain 2-2 Fundamental Equations of Elastic Mechanics 2-3 Basic Elastic Deformations (Tension, Compression, Shear, Bending, Torsion) 3. Strength and Stiffness of Structures 3-1 Stress Analysis and Strength Design (Stress Concentration and Countermeasures, Are Hard Materials Strong?) 3-2 Deformation Analysis and Stiffness Design 3-3 Concept of Weight Reduction (Material Selection and Structure) 3-4 Mechanical Principles of Finite Element Method (FEM) Analysis 3-5 Strength of Members with Cracks (Concepts of Fracture Mechanics, Fracture Toughness, etc.) 3-6 Fatigue Phenomena and Life Estimation 4. Fundamentals of Plastic Mechanics 4-1 Yield Conditions (Conditions Under Which Plastic Deformation Begins) 4-2 Relationship Between Stress and Strain in Elastic-Plastic Materials (Constitutive Equations) 4-3 Model of Work Hardening 5. Plastic Processing 5-1 Estimation of Processing Forces 5-2 Relationship Between Formability and Material Properties 5-3 Springback in Sheet Metal Press Forming 5-4 Recent Advances in Forming Simulation
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