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Publication DateIntermetallics, ISSN 0966-9795, 01/2015, Volume 56, pp. 79 - 86
The microstructural evolution, creep, and tensile deformation behavior of an orthorhombic Ti–22Al–25Nb (at.%) alloy was investigated by thermo-mechanical...
B. Creep | A. Titanium aluminides, based on Ti3Al | G. Aero-engine components | C. Isothermal forging | F. Electron microscopy, scanning | A. Titanium aluminides, based on Ti | Al | Titanium aluminides, based on Ti3Al | Creep | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CREEP-BEHAVIOR | CHEMISTRY, PHYSICAL | Aero-engine components | TENSILE BEHAVIOR | QUANTITATIVE-ANALYSIS | INTERMETALLIC ALLOY | PHASE | EVOLUTION | TI2ALNB BASED ALLOY | Isothermal forging | Electron microscopy, scanning | Mechanical properties | Alloys | Intermetallic compounds | Forging | Heat treatment | Ductility | Evolution | Creep strength | Microstructure | Titanium base alloys | Strength | Tensile strength
B. Creep | A. Titanium aluminides, based on Ti3Al | G. Aero-engine components | C. Isothermal forging | F. Electron microscopy, scanning | A. Titanium aluminides, based on Ti | Al | Titanium aluminides, based on Ti3Al | Creep | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CREEP-BEHAVIOR | CHEMISTRY, PHYSICAL | Aero-engine components | TENSILE BEHAVIOR | QUANTITATIVE-ANALYSIS | INTERMETALLIC ALLOY | PHASE | EVOLUTION | TI2ALNB BASED ALLOY | Isothermal forging | Electron microscopy, scanning | Mechanical properties | Alloys | Intermetallic compounds | Forging | Heat treatment | Ductility | Evolution | Creep strength | Microstructure | Titanium base alloys | Strength | Tensile strength
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Loading RightsMaterials Science & Engineering A, ISSN 0921-5093, 07/2019, Volume 761, p. 138064
In this work, effect of heat treatment on microstructure and tensile properties of 2 vol%TiC /near-β Ti composite processed by isothermal multidirectional...
Heat treatment | Isothermal multi-directional forging | Microstructure | Tensile properties | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | NANOSCIENCE & NANOTECHNOLOGY | STRENGTH | MECHANICAL-PROPERTIES | ALPHA-PHASE | EVOLUTION | TITANIUM-ALLOY | Substructures | Forging | Solution heat treatment | Morphology | Tensile tests | Heat treating | Aging (metallurgy) | Titanium carbide | Elongation
Heat treatment | Isothermal multi-directional forging | Microstructure | Tensile properties | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | NANOSCIENCE & NANOTECHNOLOGY | STRENGTH | MECHANICAL-PROPERTIES | ALPHA-PHASE | EVOLUTION | TITANIUM-ALLOY | Substructures | Forging | Solution heat treatment | Morphology | Tensile tests | Heat treating | Aging (metallurgy) | Titanium carbide | Elongation
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Loading RightsMaterials Science & Engineering A, ISSN 0921-5093, 01/2018, Volume 713, pp. 81 - 93
This paper reports a strong effect of multi-step forging (MIF) followed by elevated temperature isothermal rolling (IR) on the yield stress in ZK60 Mg alloy....
Rolling | Anisotropy | Texture | Magnesium alloys | Multi-step isothermal forging | ROOM-TEMPERATURE | STRAIN-PATH CHANGES | SELF-CONSISTENT MODEL | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | X-RAY-DIFFRACTION | NANOSCIENCE & NANOTECHNOLOGY | GRAIN-SIZE | MAGNESIUM SINGLE-CRYSTALS | RESIDUAL-STRESSES | PRISMATIC-SLIP | TEXTURE EVOLUTION | DEFORMATION-BEHAVIOR | Zinc compounds | Zirconium | Analysis | Alloys | Models | Mechanical engineering | Zinc | Zirconium alloys
Rolling | Anisotropy | Texture | Magnesium alloys | Multi-step isothermal forging | ROOM-TEMPERATURE | STRAIN-PATH CHANGES | SELF-CONSISTENT MODEL | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | X-RAY-DIFFRACTION | NANOSCIENCE & NANOTECHNOLOGY | GRAIN-SIZE | MAGNESIUM SINGLE-CRYSTALS | RESIDUAL-STRESSES | PRISMATIC-SLIP | TEXTURE EVOLUTION | DEFORMATION-BEHAVIOR | Zinc compounds | Zirconium | Analysis | Alloys | Models | Mechanical engineering | Zinc | Zirconium alloys
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Loading RightsMaterials Science & Engineering A, ISSN 0921-5093, 04/2017, Volume 692, pp. 127 - 138
This study investigated the principle of multidirectional isothermal forging (MDIF) and determined the major microstructural evolution features and unique...
Ti–6Al–4V | Multidirectional isothermal forging | Dynamic recrystallization | Mechanical property | Grain refinement | GLOBULARIZATION | HIGH-PRESSURE TORSION | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | HOT-WORKING | NANOSCIENCE & NANOTECHNOLOGY | ELI GRADE TI-6AL-4V | SUBMICROCRYSTALLINE STRUCTURE | EVOLUTION | SEVERE PLASTIC-DEFORMATION | Ti-6Al-4V | MICROSTRUCTURE | TITANIUM-ALLOYS | Grain boundaries | Mechanical properties | Alloys
Ti–6Al–4V | Multidirectional isothermal forging | Dynamic recrystallization | Mechanical property | Grain refinement | GLOBULARIZATION | HIGH-PRESSURE TORSION | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | HOT-WORKING | NANOSCIENCE & NANOTECHNOLOGY | ELI GRADE TI-6AL-4V | SUBMICROCRYSTALLINE STRUCTURE | EVOLUTION | SEVERE PLASTIC-DEFORMATION | Ti-6Al-4V | MICROSTRUCTURE | TITANIUM-ALLOYS | Grain boundaries | Mechanical properties | Alloys
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Loading RightsJournal of Alloys and Compounds, ISSN 0925-8388, 01/2020, Volume 813, p. 152174
Poor ductility at room temperature and oxidation resistance at high temperature have hindered the wide usages of TiAl-based alloys, especially in advanced...
Isothermal forging | Oxidation resistance | High temperature | TiAl | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | MECHANICAL-PROPERTIES | DEGREES-C | EVOLUTION | ALLOYS | MICROSTRUCTURE | Grain size | Intermetallic compounds | Ductility | Electron microscopy | Titanium base alloys | Forging | Casting alloys | Microscopy | Titanium aluminides | Oxidation | Titanium dioxide | Electron probes | Grain refinement | Room temperature
Isothermal forging | Oxidation resistance | High temperature | TiAl | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | MECHANICAL-PROPERTIES | DEGREES-C | EVOLUTION | ALLOYS | MICROSTRUCTURE | Grain size | Intermetallic compounds | Ductility | Electron microscopy | Titanium base alloys | Forging | Casting alloys | Microscopy | Titanium aluminides | Oxidation | Titanium dioxide | Electron probes | Grain refinement | Room temperature
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Loading RightsThe International Journal of Advanced Manufacturing Technology, ISSN 0268-3768, 2/2018, Volume 94, Issue 9, pp. 4199 - 4208
The isothermal forging of a cast Mg-5.89 wt.% Zn-0.79 wt.% Y-0.32 wt.% Zr magnesium alloy was carried out to form the tank cover. The forming process of...
Media Management | Engineering | Industrial and Production Engineering | Computer-Aided Engineering (CAD, CAE) and Design | Magnesium alloy | Mechanical properties | Isothermal forging | Mechanical Engineering | Microstructure | BEHAVIOR | TENSILE PROPERTIES | ENGINEERING, MANUFACTURING | AUTOMATION & CONTROL SYSTEMS | Zinc compounds | Magnesium castings | Analysis | Magnesium alloys | Finite element method | Zirconium | Magnesium base alloys | Computer simulation | Ultimate tensile strength | Zinc | Elongation | Hot forging
Media Management | Engineering | Industrial and Production Engineering | Computer-Aided Engineering (CAD, CAE) and Design | Magnesium alloy | Mechanical properties | Isothermal forging | Mechanical Engineering | Microstructure | BEHAVIOR | TENSILE PROPERTIES | ENGINEERING, MANUFACTURING | AUTOMATION & CONTROL SYSTEMS | Zinc compounds | Magnesium castings | Analysis | Magnesium alloys | Finite element method | Zirconium | Magnesium base alloys | Computer simulation | Ultimate tensile strength | Zinc | Elongation | Hot forging
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Loading RightsMaterials, ISSN 1996-1944, 11/2018, Volume 11, Issue 11, p. 2166
The effect of isothermal multidirectional forging (IMF) on the microstructure evolution of a conventional Al-Mg-based alloy was studied in the strain range of...
Mechanical properties | Grain refinement | Recrystallization | Aluminum alloy | Isothermal multidirectional forging | MICROSTRUCTURAL EVOLUTION | SUPERPLASTICITY | PARTICLES | MATERIALS SCIENCE, MULTIDISCIPLINARY | isothermal multidirectional forging | HOT | mechanical properties | REFINEMENT | ALUMINUM | recrystallization | SEVERE PLASTIC-DEFORMATION | TEMPERATURE | aluminum alloy | grain refinement | AZ31 MAGNESIUM ALLOY | STRAIN
Mechanical properties | Grain refinement | Recrystallization | Aluminum alloy | Isothermal multidirectional forging | MICROSTRUCTURAL EVOLUTION | SUPERPLASTICITY | PARTICLES | MATERIALS SCIENCE, MULTIDISCIPLINARY | isothermal multidirectional forging | HOT | mechanical properties | REFINEMENT | ALUMINUM | recrystallization | SEVERE PLASTIC-DEFORMATION | TEMPERATURE | aluminum alloy | grain refinement | AZ31 MAGNESIUM ALLOY | STRAIN
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Loading RightsMaterials Science & Engineering A, ISSN 0921-5093, 02/2019, Volume 747, pp. 98 - 110
γ-TiAl based alloys are promising materials for high-temperature components in aerospace applications. To enable good mechanical characteristics with optimized...
5. Mechanical property | 3. Pulse current assisted isothermal forging | 4. Microstructure evolution | 1. γ-TiAl based alloys | 6. Fracture mechanism | 2. Spark plasma sintering | DENSIFICATION | HIGH-NB | Mechanical property | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | Fracture mechanism | NANOSCIENCE & NANOTECHNOLOGY | gamma-TiAl based alloys | DYNAMIC RECRYSTALLIZATION | BETA | Spark plasma sintering | TIAL ALLOYS | HIGH NIOBIUM | Pulse current assisted isothermal forging | HOT DEFORMATION-BEHAVIOR | THERMOCOMPRESSION | TITANIUM ALUMINIDES | POWDER | Microstructure evolution | Mechanical properties | Powders | Analysis | Sintering | Alloys | Stress concentration | Alloy powders | Densification | Aircraft components | Fracture mechanics | Deformation mechanisms | High temperature | Dynamic recrystallization | Phase transitions | Titanium base alloys | Forging | Plasma sintering | Lamella | Microstructure | Elongation
5. Mechanical property | 3. Pulse current assisted isothermal forging | 4. Microstructure evolution | 1. γ-TiAl based alloys | 6. Fracture mechanism | 2. Spark plasma sintering | DENSIFICATION | HIGH-NB | Mechanical property | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | Fracture mechanism | NANOSCIENCE & NANOTECHNOLOGY | gamma-TiAl based alloys | DYNAMIC RECRYSTALLIZATION | BETA | Spark plasma sintering | TIAL ALLOYS | HIGH NIOBIUM | Pulse current assisted isothermal forging | HOT DEFORMATION-BEHAVIOR | THERMOCOMPRESSION | TITANIUM ALUMINIDES | POWDER | Microstructure evolution | Mechanical properties | Powders | Analysis | Sintering | Alloys | Stress concentration | Alloy powders | Densification | Aircraft components | Fracture mechanics | Deformation mechanisms | High temperature | Dynamic recrystallization | Phase transitions | Titanium base alloys | Forging | Plasma sintering | Lamella | Microstructure | Elongation
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Loading RightsMaterials Characterization, ISSN 1044-5803, 10/2018, Volume 144, pp. 378 - 386
Low cycle fatigue (LCF) behavior of an Al–Cu–Mg–Si forging alloy was investigated at room temperature. Isothermal aging (T6) and non-isothermal aging (NIA)...
Aluminum alloys | Non-isothermal aging | Low cycle fatigue | Deformation mechanism | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | MECHANICAL-PROPERTIES | THERMOMECHANICAL TREATMENT | ALUMINUM-ALLOY | MAGNESIUM ALLOY | ZR ALLOY | RESISTANCE | MATERIALS SCIENCE, CHARACTERIZATION & TESTING | DEFORMATION-BEHAVIOR | PRECIPITATION BEHAVIOR | MICROSTRUCTURE | CORROSION BEHAVIOR | Powders | Nonferrous alloys | Fatigue testing machines | Nonferrous metals | Materials | Alloys | Fatigue | Precipitation (Meteorology)
Aluminum alloys | Non-isothermal aging | Low cycle fatigue | Deformation mechanism | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | MECHANICAL-PROPERTIES | THERMOMECHANICAL TREATMENT | ALUMINUM-ALLOY | MAGNESIUM ALLOY | ZR ALLOY | RESISTANCE | MATERIALS SCIENCE, CHARACTERIZATION & TESTING | DEFORMATION-BEHAVIOR | PRECIPITATION BEHAVIOR | MICROSTRUCTURE | CORROSION BEHAVIOR | Powders | Nonferrous alloys | Fatigue testing machines | Nonferrous metals | Materials | Alloys | Fatigue | Precipitation (Meteorology)
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Loading RightsJournal of Materials Processing Tech, ISSN 0924-0136, 08/2015, Volume 222, pp. 234 - 243
The microstructure evolution and mechanical properties in different loading regions during isothermal near-β local forging were investigated using three TA15...
Local loading | Workpiece size | Different loading regions | TA15 Ti-alloy | Isothermal near-β forging | Microstructure | TRANSFORMATION | MATERIALS SCIENCE, MULTIDISCIPLINARY | ALPHA | Isothermal near-beta forging | MECHANICAL-PROPERTIES | DEFORMATION | NEURAL-NETWORK | TI-6AL-4V | COMPONENT | TITANIUM-ALLOY | ENGINEERING, MANUFACTURING | ENGINEERING, INDUSTRIAL | PHASE-FIELD | Billets | Forging | Cooling rate | Mechanical properties | Evolution | Titanium base alloys | Workpieces | Bulkheads
Local loading | Workpiece size | Different loading regions | TA15 Ti-alloy | Isothermal near-β forging | Microstructure | TRANSFORMATION | MATERIALS SCIENCE, MULTIDISCIPLINARY | ALPHA | Isothermal near-beta forging | MECHANICAL-PROPERTIES | DEFORMATION | NEURAL-NETWORK | TI-6AL-4V | COMPONENT | TITANIUM-ALLOY | ENGINEERING, MANUFACTURING | ENGINEERING, INDUSTRIAL | PHASE-FIELD | Billets | Forging | Cooling rate | Mechanical properties | Evolution | Titanium base alloys | Workpieces | Bulkheads
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Loading RightsMaterials Science and Technology, ISSN 0267-0836, 04/2016, Volume 32, Issue 6, pp. 517 - 522
Recent developments of direct heat-treated steels for high strength forgings have led to some new steel grades with excellent service properties. Quenched and...
Heat treatment | Service behaviour | Bainitic steel | Forgings | Fatigue | Continuous cooling | Isothermal cooling | Typical applications | TRANSFORMATION | DESIGN | BEHAVIOR | PARTS | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | COMPONENTS | MECHANICAL-PROPERTIES | AUSTENITE | IMPACT TOUGHNESS | CEMENTITE | MICROSTRUCTURE
Heat treatment | Service behaviour | Bainitic steel | Forgings | Fatigue | Continuous cooling | Isothermal cooling | Typical applications | TRANSFORMATION | DESIGN | BEHAVIOR | PARTS | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | COMPONENTS | MECHANICAL-PROPERTIES | AUSTENITE | IMPACT TOUGHNESS | CEMENTITE | MICROSTRUCTURE
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Loading RightsMaterials Science & Engineering A, ISSN 0921-5093, 2009, Volume 501, Issue 1, pp. 248 - 254
The plastic flow behaviour and microstructural development during isothermal forging was determined for near beta alloy Ti–10V–2Fe–3Al. Two different initial...
Strain rate sensitivity | Isothermal forging | Microstructural evolution | Ti–10V–2Fe–3Al | Deformation mechanisms | Flow softening | Ti-10V-2Fe-3Al | MATERIALS SCIENCE, MULTIDISCIPLINARY | ALLOY TI-10V-2FE-3AL | HOT-WORKING | TI-6AL-4V | NANOSCIENCE & NANOTECHNOLOGY | Alloys
Strain rate sensitivity | Isothermal forging | Microstructural evolution | Ti–10V–2Fe–3Al | Deformation mechanisms | Flow softening | Ti-10V-2Fe-3Al | MATERIALS SCIENCE, MULTIDISCIPLINARY | ALLOY TI-10V-2FE-3AL | HOT-WORKING | TI-6AL-4V | NANOSCIENCE & NANOTECHNOLOGY | Alloys
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Loading RightsMaterials Science & Engineering A, ISSN 0921-5093, 11/2019, Volume 767, p. 138366
An Al–Zn–Mg–Cu support bracket forging was isothermal precision forged at 400 °C with speeds of 0.1 mm/s, 0.01 mm/s and transient speed changing from 1 mm/s to...
Finite element method | Forging speed | Al–Zn–Mg–Cu alloy | Isothermal precision forging | ZR ADDITIONS | DESIGN | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | NANOSCIENCE & NANOTECHNOLOGY | HOT DEFORMATION | SIMULATION | CORROSION-RESISTANCE | RECRYSTALLIZATION | EVOLUTION | 7050 ALUMINUM-ALLOY | BLADE | Al-Zn-Mg-Cu alloy | FLOW BEHAVIOR
Finite element method | Forging speed | Al–Zn–Mg–Cu alloy | Isothermal precision forging | ZR ADDITIONS | DESIGN | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | NANOSCIENCE & NANOTECHNOLOGY | HOT DEFORMATION | SIMULATION | CORROSION-RESISTANCE | RECRYSTALLIZATION | EVOLUTION | 7050 ALUMINUM-ALLOY | BLADE | Al-Zn-Mg-Cu alloy | FLOW BEHAVIOR
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Loading RightsJournal of Alloys and Compounds, ISSN 0925-8388, 01/2019, Volume 773, pp. 277 - 287
Microstructural evolution and tensile properties of Ti-6Al-4V alloy with an initial lamellar microstructure during the multidirectional isothermal forging...
Ti-6Al-4V alloy | Microstructure | Isothermal forging | GLOBULARIZATION | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | ALPHA+BETA TITANIUM-ALLOYS | HOT-WORKING | CHEMISTRY, PHYSICAL | ELI GRADE TI-6AL-4V | DYNAMIC RECRYSTALLIZATION | FLOW | EVOLUTION | SEVERE PLASTIC-DEFORMATION | KINETICS | Grain boundaries | Fracture mechanics | Alloys | Ultimate tensile strength | Ductile-brittle transition | Dynamic recrystallization | Tensile strength | Titanium base alloys | Forging | Recrystallization | Yield strength | Ductile fracture | Yield stress | Grain refinement | Tensile properties | Elongation
Ti-6Al-4V alloy | Microstructure | Isothermal forging | GLOBULARIZATION | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | ALPHA+BETA TITANIUM-ALLOYS | HOT-WORKING | CHEMISTRY, PHYSICAL | ELI GRADE TI-6AL-4V | DYNAMIC RECRYSTALLIZATION | FLOW | EVOLUTION | SEVERE PLASTIC-DEFORMATION | KINETICS | Grain boundaries | Fracture mechanics | Alloys | Ultimate tensile strength | Ductile-brittle transition | Dynamic recrystallization | Tensile strength | Titanium base alloys | Forging | Recrystallization | Yield strength | Ductile fracture | Yield stress | Grain refinement | Tensile properties | Elongation
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Loading RightsIntermetallics, ISSN 0966-9795, 08/2018, Volume 99, pp. 59 - 68
The hot deformation behavior and pulse current assisted diffusion bonding (PCDB) behavior of sintered γ-TiAl based alloy with near gamma microstructure were...
Isothermal forging | Pulse current assisted diffusion bonding | γ-TiAl based alloy | Honeycomb structure | Microstructure evolution | HIGH-TEMPERATURE DEFORMATION | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | TITANIUM ALUMINIDE ALLOYS | HOT DEFORMATION | gamma-TiAl based alloy | HIGH NB | PHASE | MOLD
Isothermal forging | Pulse current assisted diffusion bonding | γ-TiAl based alloy | Honeycomb structure | Microstructure evolution | HIGH-TEMPERATURE DEFORMATION | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | TITANIUM ALUMINIDE ALLOYS | HOT DEFORMATION | gamma-TiAl based alloy | HIGH NB | PHASE | MOLD
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Loading RightsMATERIALS, ISSN 1996-1944, 08/2019, Volume 12, Issue 15, p. 2496
Multidirectional isothermal forging (MDIF) was used on a Ti-44Al-4Nb-1.5Cr-0.5Mo-0.2B (at. %) alloy to obtain a crack-free pancake. The microstructural...
TiAl-based alloy | MATERIALS SCIENCE, MULTIDISCIPLINARY | HOT-WORKING | DYNAMIC RECRYSTALLIZATION BEHAVIOR | STRENGTH | HIGH NB | SUBMICROCRYSTALLINE STRUCTURE | microstructure characterization | PHASE | TEXTURE | multidirectional isothermal forging (MDIF) | LOW-TEMPERATURE SUPERPLASTICITY | DEFORMATION-BEHAVIOR | refinement mechanism | PLASTIC-DEFORMATION
TiAl-based alloy | MATERIALS SCIENCE, MULTIDISCIPLINARY | HOT-WORKING | DYNAMIC RECRYSTALLIZATION BEHAVIOR | STRENGTH | HIGH NB | SUBMICROCRYSTALLINE STRUCTURE | microstructure characterization | PHASE | TEXTURE | multidirectional isothermal forging (MDIF) | LOW-TEMPERATURE SUPERPLASTICITY | DEFORMATION-BEHAVIOR | refinement mechanism | PLASTIC-DEFORMATION
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Loading RightsZhongguo Youse Jinshu Xuebao/Chinese Journal of Nonferrous Metals, ISSN 1004-0609, 11/2017, Volume 27, Issue 11, pp. 2260 - 2266
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Materials Science & Engineering A, ISSN 0921-5093, 01/2014, Volume 591, pp. 18 - 25
For TA15 Ti-alloy in near-β forging and subsequent heat treatment, the evolution of equiaxed α is complex and difficult to control, but a tri-modal...
Near-β forging | BP neural network | TA15 Ti-alloy | Equiaxed α | Tri-modal microstructure | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | HOT-WORKING | TENSILE PROPERTIES | Near-beta forging | NANOSCIENCE & NANOTECHNOLOGY | Tr-modal microstructure | ISOTHERMAL COMPRESSION | DEFORMATION | FLOW | PROCESSING PARAMETERS | EVOLUTION | Equiaxed alpha | TITANIUM-ALLOY | TI-6AL-4V ALLOY
Near-β forging | BP neural network | TA15 Ti-alloy | Equiaxed α | Tri-modal microstructure | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | HOT-WORKING | TENSILE PROPERTIES | Near-beta forging | NANOSCIENCE & NANOTECHNOLOGY | Tr-modal microstructure | ISOTHERMAL COMPRESSION | DEFORMATION | FLOW | PROCESSING PARAMETERS | EVOLUTION | Equiaxed alpha | TITANIUM-ALLOY | TI-6AL-4V ALLOY
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Loading RightsJournal of Materials Processing Tech, ISSN 0924-0136, 02/2018, Volume 252, pp. 45 - 57
The microstructural evolution of nickel base superalloy Nimonic 80a during hot forging was studied in order to explore the suitability of this alloy to be hot...
Non-isothermal conditions | Nimonic 80a | Nickel base superalloy | Discontinuous dynamic recrystallization (DDRX) | Hot forging | MATERIALS SCIENCE, MULTIDISCIPLINARY | ENGINEERING, MANUFACTURING | ENGINEERING, INDUSTRIAL | DEFORMATION | DYNAMIC RECRYSTALLIZATION | Grain boundaries | Alloys
Non-isothermal conditions | Nimonic 80a | Nickel base superalloy | Discontinuous dynamic recrystallization (DDRX) | Hot forging | MATERIALS SCIENCE, MULTIDISCIPLINARY | ENGINEERING, MANUFACTURING | ENGINEERING, INDUSTRIAL | DEFORMATION | DYNAMIC RECRYSTALLIZATION | Grain boundaries | Alloys
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