Microstructural characterization of MAR-M247 fabricated through scanning laser epitaxy

Engineering

• Gas Turbine 100%
• Processing Parameter 100%
• Polycrystalline 100%
• Broad Range 100%
• Main Reason 100%
• Face-Centered Cubic 100%
• Additive Manufacturing 100%
• Substrate Interface 100%
• Hot Section 100%
• Laser Processing 100%
• Fatigue Resistance 100%
• Crack Formation 100%
• Powder Bed Fusion 100%
• Creep Strength 100%
• Energy dispersive spectrometry 100%
• Centered Cubic Structure 100%

Keyphrases

• Microstructural Characterization 100%
• Mar-M247 100%
• Scanning Laser Epitaxy 100%
• Energy Dispersive X-ray Spectroscopy 20%
• Electron Energy 20%
• Scanning Electron Microscopy 20%
• Gas Turbine 20%
• Processing Parameters 20%
• Optical Imaging 20%
• Substrate Interface 20%
• Warpage 20%
• Hot Section Components 20%
• Crack Formation 20%
• Laser Processing 20%
• Precipitation Strengthening 20%
• Face-centered Cubic Structure 20%
• Ni3Ti Phase 20%
• Strengthening Phase 20%
• Creep Strength 20%
• Powder Bed Fusion 20%
• Nickel-based Superalloy 20%
• Processing Difficulty 20%
• Ni3Al Phase 20%
• Fatigue Resistance 20%
• Microstructural Refinement 20%

Material Science

• Epitaxy 100%
• Energy-Dispersive X-Ray Spectroscopy 50%
• Scanning Electron Microscopy 25%
• Creep 25%
• Optical Imaging 25%
• Fatigue of Materials 25%
• Three Dimensional Printing 25%
• Crack Formation 25%
• Nickel-Based Superalloys 25%
• Powder Bed Fusion 25%