Angular Distribution of Slip Steps by Three-Dimensional Polycrystalline Model for Stainless Steel
スポンサーリンク
概要
- 論文の詳細を見る
Localized deformation plays an important role in the initiation of irradiation-assisted stress corrosion cracking, and it can be characterized by the spacing and inclination of slip steps observed on the surface. In order to examine the contribution of mechanical factors (stress) to slipping, the angular distribution of slip steps was evaluated by using a three-dimensional polycrystalline model generated by Voronoi tessellation. An elastic finite element analysis was performed to derive the resolved shear stress (RSS) acting on each slip system. Random crystallographic orientations assigned to each grain caused the microstructural inhomogeneity of local stress due to anisotropic elastic properties. The angular distribution obtained was compared with the experimental results observed in irradiated and deformed stainless steel. It was shown that mechanical factors dominate the slipping behavior of the irradiated stainless steel and that not only RSS but also normal stress acting on the slip plane affects the crystallographic slip. The angular distribution was also evaluated from the maximum Schmid factor of individual grains, in which the inhomogeneous local stress was not taken into account. The angular distributions obtained using RSS and the Schmid factor were almost the same. This suggests that the inhomogeneity of local stress negligibly affects the angular distribution of slip steps, although the change in the local stress in the polycrystalline material is significant.
- 2009-09-01
著者
-
FUKUYA Koji
Institute of Nuclear Safety System, Inc.
-
KAMAYA Masayuki
Institute of Nuclear Safety System, Inc.
-
KITAMURA Takayuki
Kyoto University
-
Fukuya Koji
Institute Of Nuclear Safety System
-
Kitamura Takayuki
Kyoto Univ. Kyoto Jpn
-
Kamaya Masayuki
Institute Of Nuclear Safety System Inc.
-
Kamaya Masayuki
Institute For Nuclear Safety System Inc.
関連論文
- Corrosion Behavior of Stainless Steels in Simulated PWR Primary Water : Effect of Chromium Content in Alloys and Dissolved Hydrogen
- Angular Distribution of Slip Steps by Three-Dimensional Polycrystalline Model for Stainless Steel
- Three-Dimensional Cohesive Zone Modeling on Interface Crack Initiation from Nanoscale Stress Concentration
- Evolution of Microstructure and Microchemistry in Cold-worked 316 Stainless Steels under PWR Irradiation
- IASCC Initiation in Highly Irradiated Stainless Steels under Uniaxial Constant Load Conditions
- Effects of Dissolved Hydrogen and Strain Rate on IASCC Behavior in Highly Irradiated Stainless Steels
- Deformation Structure in Highly Irradiated Stainless Steels
- Separation of Microstructural and Microchemical Effects in Irradiation Assisted Stress Corrosion Cracking using Post-irradiation Annealing
- IASCC Susceptibility and Slow Tensile Properties of Highly-irradiated 316 Stainless Steels
- Role of Radiation-Induced Grain Boundary Segregation in Irradiation Assisted Stress Corrosion Cracking
- A Multicomponent Model of Radiation-induced Segregation for Commercial Stainless Steels
- SA-09-3(043) Growth of Grain Boundary Cavity under Nabarro-Herring Creep(Flaw Progress & Failure Mechanism 2)
- Slip Behavior and Local Stress near Grain Boundary in High-Cycle Fatigue of Copper Polycrystal
- Ab Initio Simulation on Ideal Shear Strength of Silicon(Electronic Devices)
- Grain Boundary Phosphorus Segregation in Thermally Aged Low Alloy Steels
- Calculation of Gamma Induced Displacement Cross-sections of Iron Considering Positron Contribution and Using Standard Damage Model
- Development of Micro Tensile Testing Method in an FIB System for Evaluating Grain Boundary Strength
- Crack Propagation under Creep-Fatigue Interaction Condition
- Fatigue Damage Evaluation Using Electron Backscatter Diffraction
- A Smoothing Filter for Misorientation Mapping Obtained by EBSD
- A Crack Growth Evaluation Method for Interacting Multiple Cracks
- 722 Cohesive Zone Modeling of Cracking along the Cu/Si Interface in Nanoscale Thin Films
- Plastic Strain Measurement by EBSD
- Stress Intensity Factors of Surface Crack with Undulated Front
- J-Integral Solutions for Surface Cracks Inside Pipes under Internal Pressure
- Calculation of Gamma Induced Displacement Cross-sections of Iron Considering Positron Contribution and Using Standard Damage Model
- Grain Boundary Phosphorus Segregation in Thermally Aged Low Alloy Steels
- Analysis of Stress Distribution in Au Micro-Interconnection by Polycrystalline Models