Development of Sensitivity Analysis Code for Elastic-Plastic Dynamic Response of Piping Systems

スポンサーリンク

概要

• 論文の詳細を見る

• A sensitivity analysis code for the elastic-plastic dynamic response of piping systems is developed in the context of implicit time integration schemes. The formulation of sensitivity analysis originates in the perturbation method and retains its advantage. Namely, the decomposed effective stiffness matrix after the iteration for each increment is efficiently used to compute the sensitivity of any parameter involved in the piping system. A residual heat remover of a PWR (pressurized water reactor) under an earthquake loading is analyzed based on the present method with the isoparametric elbow element proposed by Bathe, and satisfactory results are obtained.

• 一般社団法人日本機械学会の論文
• 1992-10-15

著者

• Hisada Toshiaki

  Graduate School of Frontier Sciences, The University of Tokyo

• Hisada Toshiaki

  Graduate School Of Frontier Sciences The University Of Tokyo

• Hisada Toshiaki

  Institute Of Environmental Studies Graduate School Of Frontier Science The University Of Tokyo

• Noguchi Hirohisa

  Research Center For Advanced Science And Technology University Of Tokyo

• Hisada T

  Graduate School Of Frontier Sciences The University Of Tokyo

• HISADA Toshiaki

  Research Center for AdvanCed Science and Technology, University of Tokyo

• MURAYAMA Osamu

  Mitsubishi Research Institute, Inc.

• Murayama Osamu

  Mitsubishi Research Institute Inc.

• Hisada Toshiaki

  Research Center For Advanced Science And Technology University Of Tokyo

関連論文

• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• Finite Element Analysis of Ventricular Wall Motion and Intra-Ventricular Blood Flow in Heart with Myocardial Infarction(Bioengineering)
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• Finite Element Analysis on the Relationship between Left Ventricular Pump Function and Fiber Structure within the Wall(Bioengineering)
• Computer Simulation of Blood Flow, Left Ventricular Wall Motion and Their Interrelationship by Fluid-Structure Interaction Finite Element Method(Reviewed Papers Accepted for Publication in this Special Issue)(Special Issue on Bioengineering)
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• 1 Multi-physics, Multi-scale Simulator for Heart Research : Integration of Knowledge on Molecular Dynamics to Solve the Clinical Problems("State of the Art" Biomedical Technology Developed in Japan Will Inspire Intricate Applications in Cardiology in the
• PE-467 Virtual Echocardiography : A Realistic 3D Model of Blood Flow and Ventricular Wall Motion(Cardiac Function, Basic/Clinical 3 (M) : PE79)(Poster Session (English))
• PJ-601 Optical Mapping of Stretch Induced Ectopic Excitation and Spatial Strain Heterogeneity(Arrhythmia, basic-5 (A) PJ101,Poster Session (Japanese),The 70th Anniversary Annual Scientific Meeting of the Japanese Circulation Society)
• OE-239 The Effects of Wall Stress on the Dynamics of Ventricular Fibrillation : A Simulation Study Using a Dynamic Mechano-Electric Coupling Model(Arrhythmia, basic-1 (A) OE40,Oral Presentation (English),The 70th Anniversary Annual Scientific Meeting of t
• Sensitivity Analysis for Thermal Stress and Creep Problems
• Finite Element Analysis for Large Deformation Frictional Contact Problems with Finite Sliding
• Development of Sensitivity Analysis Code for Elastic-Plastic Dynamic Response of Piping Systems
• 研究速報 : A Note on Stochastic Finite Element Method ( Part 10 ) : On Dimensional Invariance of Advanced First-Order Second-Moment Reliability Index in Analyses of Continuum
• 研究速報 : A Note on Stochastic Finite Element Method ( Part 9 ) : Development of Successive Perturbation Method and its Application to Advanced First-Order Second-Moment Reliability
• Development of a Finite Element Procedure of Contact Analysis for Articular Cartilage with Large Deformation Based on the Biphasic Theory(Bioengineering)
• Finite Element Analysis of Internal Fixation for Sacroiliac Joint in Pelvic Fractures
• Finite Element Analysis for Pelvic Fractures
• Anatomically correct reduction and fixation of a Tile C-1 type unilateral sacroiliac disruption using a rod and pedicle screw system between the S1 vertebra and the ilium : experimental and clinical case report
• Development of a New Branch-Switching Algorithm in Nonlinear FEM using Scaled Corrector
• Application of fluid-structure interaction analysis to flapping flight of insects with deformable wings
• Finite Element Synthesis of Structure Shapes Due to Stress Criteria
• A Homogenization Method for Nearly Incompressible Materials by Using Characteristic Deformation Mode Superposition
• Three-Dimensional Free-Flight Analysis of the Rapid Turning of a Dragonfly Using Fluid-Structure Interaction Analysis

もっと見る 閉じる

スポンサーリンク