Elasto-Plastic Damage Analysis of Functionally Graded Materials Subjected to Thermal Shock and Thermal Cycle(Solid Mechanics)
スポンサーリンク
概要
- 論文の詳細を見る
The elasto-plastic damage behaviors of functionally graded materials (FGM) subjected to thermal loading are analyzed by the finite element method using continuum damage mechanics. Lemaitre's damage model is employed to analyze the damage behavior of a FGM disk subjected to thermal shock and a FGM coating subjected to thermal cycle. The effect of FGM on the thermal damage is discussed through some numerical examples for industrial materials. Numerical results reveal the validity of the present method for the development and the evaluation of new FGMs.
- 2002-07-15
著者
-
TOI Yutaka
Institute of Industrial Science, University of Tokyo
-
Toi Yutaka
Institute Of Industrial Science The University Of Tokyo
-
Toi Yutaka
Institute Of Industrial Science University Of Tokyo
-
LEE Jae-Myung
Institute of Industrial Science, University of Tokyo
-
Lee Jae-myung
Institute Of Industrial Science University Of Tokyo:(present Address)department Of Naval Architectur
関連論文
- Elasto-Plastic Damage Analysis of Functionally Graded Materials Subjected to Thermal Shock and Thermal Cycle(Solid Mechanics)
- Application of the Degenerated Timoshenko Beam Element Using the Adaptively Shifted Integration Technique to Elastic-Plastic Analyses Considering Large Displacements : Rotations
- 9. Shifted Integration Technique and its Applications to the Finite Element Crush Analysis of Framed Structures
- 9. Numerical and Experimental Studies on the Crashworthiness of Structural Members
- Mesoscopic Simulation of Microcracking Behaviors of Brittle Polycrystalline Solids : 2nd Report, Study of Anisotropic Theory in Continuum Damage Mechanics
- Finite Element Collapse Analysis of Framed Structures by the Shifted Integration Technique
- Mesoscopic Simulation of Microcracking Behaviors of Brittle Polycrystalline Solids : 1st Report, Study of Isotropic Theory in Continuum Damage Mechanics
- Finite Element Modeling of Electrochemical-Poroelastic Behaviors of Conducting Polymer Films
- Enhanced Computational Modeling of Shape Memory Alloys and Its Applications to Honeycomb Analysis
- Improved Constitutive Modeling for Phase Transformation of Shape Memory Alloys
- Numerical Simulation of Mechanical Sensors Using Conducting Polymers
- Simulation of Self-Repair Process of Steels Damaged by Creep -Extension of Continuum Damage Mechanics to Self-Repair Process-:—Extension of Continuum Damage Mechanics to Self-Repair Process—
- Analysis of Thermal Fatigue Crack Propagation Based on Local Approach to Fracture