High Temperature Deformation of Materials with Precipitates : Temperature and Particle Size Dependence of Work Hardening Behavior
スポンサーリンク
概要
- 論文の詳細を見る
The temperature and particle size dependence of work hardening of metallic materials with second phase particles at elevated temperatures, where the dynamic recovery by volume diffusion of atoms is dominant, has been calculated on the basis of a continuum mechanics model without any ambiguous parameters. It was confirmed that there was a good agreement between the result of calculation based on this model and the one of tensile test in an austenitic heat-resisting steel with M_<23>C_6 carbides. Further, the model in this work was also applied to the interpretation of the internal stress during steady-state creep in this steel.
- 一般社団法人日本機械学会の論文
著者
-
TANAKA Manabu
Department of Mechanical Engineering, Faculty of Engineering and Resource Science, Akita University
-
Tanaka Manabu
Department Of Mechanical Engineering Faculty Of Engineering And Resource Science Akita University
-
Tanaka Manabu
Department Of Mechanical Engineering For Production Mining College Of Akita University
-
Tanaka Manabu
Department Of Applied Chemistry Waseda University
関連論文
- Quantitative Analysis of Three-dimensional Fatigue Fracture Surface Reconstructed by Stereo Matching Method
- Automated Image Processing and Analysis of Fracture Surface Patterns Formed during Creep Crack Growth in Austenitic Heat-Resisting Steels with Different Microstructures
- High Temperature Deformation of Materials with Precipitates : Temperature and Particle Size Dependence of Work Hardening Behavior
- The High-temperature Deformation of Metallic Materials with Ellipsoidal Second-phase Particles
- Microstructures and Properties of High-strength Alloys Severely Deformed by Machining
- Fractal Dimension of Grain-boundary Fracture for Characterization of High-temperature Fracture in Heat-resistant Alloys
- Quantitative Evaluation of the Impact Fracture Surfaces of SS400 Steel by the Three-dimensional Geometrical Analysis
- Fractal Analysis of Fracture Surfaces in Materials Crept at High Temperatures or Fatigued by Repeated Bending
- Change in the Fracture Surface Pattern in the Fracture Process of SUS631 Stainless Steel Fatigued by Repeated Bending
- Magnetic Force Microscopy as a New Tool to Evaluate Local Magnetization of Organic Radical Polymers
- SA-06-2(013) Size Distribution of Creep Cracks and Fracture Mechanisms in High-Temperature Materials(Flaw Assessment at Elevated Temperature 1)
- A Continuum Mechanics Model for Crack Initiation at Grain-boundary Triple Points in High-temperature Deformation
- Microstructures of Cutting Chips of SUS430 and SUS304 Steels, and NCF 750 and 6061-T6 Alloys
- Preparation of Polyhedral Graphite Particles by Arc Discharge under Atmospheric Pressure
- Fluctuation Measurement of Multi-Phase AC Arc and In-Flight Particle Temperature
- Fractal Analysis of Fracture Surfaces and Simulation of Fracture Process Using Fractal Dimension Maps in Stainless Steels Fatigued by Repeated Bending