Simulation of the Forging Process Incorporating Strain-Induced Phase Transformation Using the Finite Volume Method(Part II; Effects of Strain Rate on Structural Change and Mechanical Behavior)

スポンサーリンク

概要

• 論文の詳細を見る

• In Part I, based on the framework of metallo-thermo-mechanics, a finite volume method formulated in the Eulerian description has been set up to simulate the forging process and corresponding strain-induced austenitic-martensite phase transformation. The approach has been developed and implemented in the commercial computer program MSC. SuperForge. In this paper, numerical simulations for SUS304 stainless steel on backward and forward extrusions are carried out in order to verify the method proposed in Part I. Furthermore, the effects of strain rate on the austenitic-martensite phase transformation and the aggregate flow stress are studied.

• 社団法人日本材料学会の論文
• 2001-03-15

著者

• INOUE Tatsuo

  Department of Energy Science and Engineering, Kyoto University

• IMATANI Shoji

  Department of Energy Conversion Science, Graduate School of Energy Science, Kyoto University

• Vries Edwin

  Msc. Software (e.d.c.) B.v.

• Ju D‐y

  Saitama Inst. Technol. Saitama Jpn

• 今谷 勝次

  Department Of Energy Conversion Science Graduate School Of Energy Science Kyoto University

• Imatani Shoji

  Department Of Mechanical And System Engineering Kyoto Institute Of Technology

• Imatani Shoji

  Department Of Energy Conversion Science Kyoto University

• Inoue T

  Department Of Energy Conversion Science Kyoto University

• DING Peiran

  Technical Division, MSC. Software Japan Ltd.

• JU Dong-Ying

  Department of Mechanical Engineering, Saitama Institute of Technology

• Ju Dong-ying

  Department Of Mechanical Engineering Saitama Institute Of Technology

• Ding P

  Msc Software Tokyo

• Inoue Tatsuo

  Department Of Energy Conversion Science Kyoto University

• Inoue Tatsuo

  Department Of Chemical Science And Technology Faculty Of Engineering Tokushima University

• INOUE Tatsuo

  Department of Biology, Kyushu University

関連論文

• MECHANICAL PROPERTIES OF BOROSILICATE GLASS COATED WITH ALUMINA BY SPUTTERING PROCESS
• 1347 Numerical Simulation of Two-dimensional Problem Based on the non-Fourier Heat Conduction
• 247 非フーリエ熱伝導則による過渡的解析
• Hyperbolic Thermoelastic Analysis due to Pulsed Heat Input by Numerical Simulation
• Characteristics of Temperature Field due to Pulsed Heat Input Calculated by Non-Fourier Heat Conduction Hypothesis
• Review of current staging systems for hepatocellular carcinoma
• Imaging findings of biliary hamartomas (von Meyenburg complexes)
• Percutaneous ultrasound-guided radiofrequency ablation with artificial pleural effusion for hepatocellular carcinoma in the hepatic dome
• 曲線の創成と極薄板の曲線スリッティング加工-圧延ロールと鋼細線を工具としたフレキシブル板材加工法に関する研究 I-
• 多結晶体の微視的塑性変形挙動に対する温度と負荷様式の影響(塑性工学)
• 初期異方性板材の変形局所化過程の解析 : 直交異方性板の引張負荷下における検討
• 直交異方性降伏関数と積層板の成形性解析への適用
• 307 引抜き加工後の残留応力が熱処理過程に及ぼす影響に関する解析的研究
• 粉末焼結体の変形抵抗に対するひずみ速度の影響
• 124 統一型構成式を用いたFEM解析と環状切欠き材の変形挙動に対する適用(変形解析)
• 塑性-クリープ相互作用下の非弾性構成式と2 1/4 Cr-1 Mo鋼の変形挙動に対する適用
• 115 内圧を受けるシェル構造の高温非弾性解析
• A Plastic Constitutive Model for Anisotropic Materials and Finite Element Analysis of Strain Localization Process
• FINITE ELEMENT ANALYSIS OF OUT-OF-PLANE DEFORMATION IN LAMINATED SHEET METALS BASED ON AN ANISOTROPIC PLASTICITY MODEL
• Vascularity of gastric carcinoma : evaluation using color Doppler ultrasonography
• 高温多軸応力下における SUS 304 鋼の非弾性挙動に関する研究 : 第2報,非弾性構成式による解析と検討
• 高温多軸応力下における SUS 304 鋼の非弾性挙動に関する研究 : 第1報,パソコンを用いた制御システムの開発と実験結果
• 433 溶融・凝固におけるステファン問題の積分ペナルティー法を用いた解析
• SIMULATION OF DEBONDING ON THE INTERFACE AND SUBSEQUENT CREEP CRACK GROWTH IN THE MATRIX FOR METAL MATRIX COMPOSITE
• Simulation of the Forging Process Incorporating Strain-Induced Phase Transformation Using the Finite Volume Method(Part II; Effects of Strain Rate on Structural Change and Mechanical Behavior)
• Simulation of the Forging Process Incorporating Strain-Induced Phase Transformation Using the Finite Volume Method(Part I; Basic Theory and Numerical Methodology)
• ひずみ勾配理論による応力集中の緩和に関するスケール効果(OS2-3 先端材料システム,OS2 先端材料システム設計とメゾメカニックス)
• 724 高次勾配を考慮した構成式モデルによる寸法効果の記述(弾(粘)塑性構成式,塑性挙動のモデリングとシミュレーション-ナノからマクロまで-,オーガナイスドセッション5,第53期学術講演会)
• 635 ひずみ勾配理論の有限要素法への適用
• 619 多結晶体の不均一変形と表面粗面化に関する微視的挙動の検討(多結晶材の変形挙動)(一般セッション)
• 多結晶体の変形に及ぼす結晶粒と粒界すべりの影響(高温強度)
• 443 多結晶体金属材料の変形と平面粗面化
• 122 材料のくびれ挙動に及ぼす初期内部状態の影響
• 114 溶接熱影響部の微視的変形と結晶塑性解析による検討
• パリ留学記
• 429 金属薄板の成形限界に及ぼす異方性と不均質性の影響に関する有限要素解析
• 407 Mod. 9Cr-1Mo 鋼溶接継手の熱影響部近傍における不均一変形と力学的特性
• XAFS Study on the Pyrochlore-Type Bi_Nd_xRu_2O_7 Solid-Solutions
• Analysis of Damage Accumulation due to Change in Strain Path and Crack Initiation during Multiaxial Low - Cycle Fatigue : Series A : Solid-Mechanics, Strength of Materials
• METALLO-THERMO-MECHANICAL SIMULATION OF CENTRIFUGAL CASTING PROCESS OF MULTI-LAYER ROLL
• A Numerical Modeling of Metallo-thermo-mechanical Behavior in Both Carburized and Carbonitrided Quenching Processes
• Axial Multiple Crack Propagation and Crack Kinking Criteria in Pressurized Fuselage
• 312 高温における超合金の非弾性変形とシェル構造解析への応用
• 弾粘塑性有限要素法による金属薄板の曲げ加工解析
• 統一形非弾性構成式を用いた切欠材の変形挙動の有限要素解析
• 変形誘起異方性を考慮した非弾性構成式 : 第1報、異方性降伏関数の定式化
• 228 SUS304鋼の非比例負荷経路における異方性の発達(多軸応力下の挙動)
• 312 SUS304鋼の温度変動を伴う繰返し塑性変形(変形・加工)
• 表面き裂を有する鋳物部材の熱伝導シミュレーション解析
• FATIGUE BEHAVIOR IN NOTCHED COMPONENT OF (α+β)AND β TITANIUM ALLOYS UNDER COMBINED AXIAL-TORSIONAL LOADING
• Macro-, Meso- and Micro-scopic Metallo-thermo-mechanics : Application to Phase Transformation Incorporating Process Simulation
• Science of Tatara and Japanese Sword : Traditional Technology viewed from Modern Science
• Metallo-Thermo-Mechanics : Application to Phase Transformation incorporated Processes
• Canting Antiferromagnetism in NdVO_4
• "UNDERSTANDING MATERIALS SCIENCE : History-Properties-Applications" Hole E.Bummel, Professor, Department of Materials Science and Engineering, University of Florida Springer-Verlag New York, 1998, 407pages, 88DM, ISBN : 0-387-98303-1
• THE JAPANESE SWORD : The Material, Manufacturing and Computer Simulation of Quenching Process
• RECENT ADVANCES IN STRAIN GRADIENT PLASTICITY
• Inelastic Constitutive Models under Plasticity-Creep Interaction Condition ム Theories and Evaluations ム
• Activation of c-Jun N-terminal kinase in non-cancerous liver tissue predicts a high risk of recurrence after hepatic resection for hepatocellular carcinoma

もっと見る 閉じる

スポンサーリンク