TTP Diagrams of Z Phase in 9-12% Cr Heat-Resistant Steels
スポンサーリンク
概要
- 論文の詳細を見る
Time-Temperature-Precipitation diagrams of Z phase were investigated in crept samples of 9–12% Cr heat-resistant steels. The Z phases were formed around the prior austenite grain boundaries at 823 K, 923 K, and 973 K—temperatures similar to the 873 K reported in a previous paper. The time required for Z phase formation was shorter in higher Cr steels, indicating that to avoid Z phase formation the Cr content of the steel should be reduced as far as possible. The beginning of Z phase formation did not consist with an inflection point on the stress–rupture curve in all steels. Z phase formation could promote the degree of creep strength degradation at long-term region. The average chemical composition in the Z phase depended on the temperature: the Nb content of the Z phase was lower at lower temperatures. The average chemical composition of the Z phase changed during creep; the Cr and Nb contents of the Z phase increased and decreased, respectively, during creep exposure. The size and number density of the Z phase at 823 K, which is the maximum operating temperature of the next generation of fast breeder reactor components, were small in contrast with those at 873 K. The influence of Z phase formation on creep strength would not be large up to about 50 000 h at 823 K since most of MX cabonitrides would not disappear.
- 2007-05-15
著者
-
KIMURA Kazuhiro
National Institute for Materials Science
-
SAWADA Kota
National Research Institute for Metals
-
Kimura Kazuhiro
Materials Data Sheet Station National Institute For Materials Science
-
Sawada Kota
Materials Reliability Center National Institute For Materials Science
-
Sawada Kota
Materials Information Technology Station National Institute For Materials Science
-
Kushima Hideaki
Materials Data Sheet Station National Institute For Materials Science
-
Kushima Hideaki
Materials Information Technology Station National Institute For Materials Science
-
TABUCHI Masaaki
Materials Reliability Center, National Institute for Materials Science
-
Tabuchi Masaaki
Materials Reliability Center National Institute For Materials Science
-
Tabuchi Masaaki
National Inst. For Materials Science Independent Administrative Institution
-
Tabuchi Masaaki
National Research Institute For Metals
-
Tabuchi Masaaki
National Research Institute Of Metals
-
Kimura Kazuhiro
National Research Institute For Metals
関連論文
- Effects of Full Annealing Heat Treatment on Long-term Creep Strength of 2.25Cr-lMo Steel Welded Joint
- Creep Fracture Analysis of W Strengthened High Cr Steel Weldment
- Microstructural Investigations on Type IV Cracking in a High Cr Steel
- Effects of Ni and Heat Treatment on Long-term Creep Strength of Precipitation Strengthened 15Cr Ferritic Heat Resistant Steels
- Influence of Chemical Composition and Heat Treatment Condition on Impact Toughness of 15Cr Ferritic Creep Resistant Steel
- Improvement in Creep Strength of Precipitation Strengthened 15Cr Ferritic Steel by Controlling Carbon and Nitrogen Contents
- Effects of W and Co on Long-term Creep Strength of Precipitation Strengthened 15Cr Ferritic Heat Resistant Steels
- D311 IMPROVEMENT IN CREEP STRENGTH OF PRECIPITATION STRENGTHENED 15CR FERRITIC STEEL BY CONTROLLING OF CARBON AND NITROGEN CONTENTS
- Development of high strength 15Cr creep resistant steel for low emission power plant
- Effects of W and Co on the Microstructure and Creep Strength of the Precipitation Strengthened 15Cr Ferritic Steels(Special Issue on Creep and Fatigue at Elevated Temperatures)
- SB-08-3(037) Effects of W and Co on the Microstructure and Creep Strength of the Precipitation Strengthened 15Cr Ferritic Steels(Advanced Heat Resistant Steels)
- SB-08-2(034) Development of Precipitation Strengthened 15Cr Ferritic Creep Resistant Steel(Advanced Heat Resistant Steels)
- SB-06-4(038) Changes in Precipitates of Modified 9Cr-1Mo Steel During Long-term Creep Deformation at 873K and 923K(Changes in Microstructure 1)
- Development of High Strengh 15Cr Ferritic Creep Resistant Steel with Addition of Tungsten and Cobalt
- Development of High Strength 15Cr Ferritic Creep Resistant Steel
- Phase Equilibrium between Austenite and MX Carbonitride in a 9Cr-1Mo-V-Nb Steel
- Low Temperature Specific Heat and Electrical Resistivity in Orthorhombic YBa_2Cu_3O_ and Tetragonal YBa_2Cu_3O_
- Degradation of Creep Strength in Welded Joint of 9%Cr Steel
- SB-07-3(083) Effect of Microstructural Changes During Creep on The Creep Rate at 823K in Type 304 Heat Resistant Steel(Changes in Microstructure 2)
- Strengthening Mechanisms of Creep Resistant Tempered Martensitic Steel
- Characterization of the Internal Friction Properties of 2.25Cr-1Mo Steel
- Improvement of Omega Method for Creep Life Prediction
- Two-phase Separation of Primary MX Carbonitride during Tempering in Creep Resistant 9Cr1MoVNb Steel
- Creep Fracture Mechanism Map and Creep Damage of Cr-Mo-V Turbine Rotor Steel
- Effects of Alloying Additions and Material Microstructure on the Accuracy of the Predictive Law of Creep Crack Growth for W-Strengthened 9-12%Cr Ferritic Heat-Resistant Steel
- The characterization of creep crack growth rate and its life of Cast TiAl-Fe-V-B Alloys(Strength & Fracture)
- Comparative Study of The Estimation of Creep Crack Growth Behaviour of TiAl by Using A Precrack And A Notch CT Specimens
- Electrophoretic Karyotype and Gene Assignment to Chromosomes of Aspergillus oryzae
- D312 INFLUENCE OF CHEMICAL COMPOSITION AND HEAT TREATMENT CONDITION ON IMPACT TOUGHNESS OF 15CR FERRITIC CREEP RESISTANT STEEL
- TTP Diagrams of Z Phase in 9-12% Cr Heat-Resistant Steels
- Z-phase Formation during Creep and Aging in 9-12%Cr Heat Resistant Steels
- GS(6)-26(GSW0324) The Measurement and Estimation of Creep Crack Growth of a Round Bar Specimen with a Circular Notch for 12Cr Ferritic Heat Resistant Steel
- Contribution of Microstructural Factors to Hardness Change during Creep Exposure in Mod.9Cr-1Mo Steel
- Effect of Nitrogen Content on Microstructural Aspects and Creep Behavior in Extremely low Carbon 9Cr Heat-resistant Steel
- Analysis of Stress - Strain Relationship in Materials Containing Voids by Means of Plastic Finite Element Method
- Microstructures and Type-IV Creep Damage of High Cr Steel Welds
- Creep Rupture Properties of Welded Joints of Heat Resistant Steels
- The Influence of Both Testing Environment and Fillet Radius of the Die Holder on the Rupture Life of Small Punch Creep Tests
- Characterization of creep crack growth behaviour of 316 stainless steel in terms of microscopical fracture mechanism.
- Elevation Properties of a Quasi-Zenith Satellite System Using Circular Orbits(Recent Fundamental Technologies for Broadband Satellite Communications)
- In-Beam Stress Corrosion Tests for Welded 308 Stainless Steel in Pure Water at 473 K