Alloy Research Topics with MX-Lab

Various research topics are being explored using MX-Lab.
Below are examples of papers published on each topic.

• HEA4
  • Tailoring microstructure with spatial heterogeneity in CoCrFeMnNi high-entropy alloy via laser surface relaxation
  • Multi-layered heterostructured CoCrFeMnNi high-entropy alloy processed using direct energy deposition and ultrasonic nanocrystalline surface modification
  • Cryogenic tensile behavior of laser additive manufactured CoCrFeMnNi high entropy alloys
  • Fabrication of structural and compositional heterostructured CoCrNi–CoCrFeMnNi multi-material using direct energy deposition additive manufacturing
• Machine Learning2
  • Explainable machine learning for understanding and predicting geometry and defect types in Fe-Ni alloys fabricated by laser metal deposition additive manufacturing
  • Virtual surface morphology generation of Ti-6Al-4V directed energy deposition via conditional generative adversarial network
• Al Alloy1
  • Microstructure and mechanical properties of laser DED produced crack-free Al 7075 alloy: Effect of process parameters and heat treatment
• Additional Process1
  • Cracking suppression in additive manufacturing of hard-to-weld nickel-based superalloy through layer-wise ultrasonic impact peening
• In-Situ Alloying4
  • Evaluation of in-situ alloyed Inconel 625 from elemental powders by laser directed energy deposition
  • Crystallographic-orientation-dependent magnetic properties of Fe–Ni permalloy in-situ alloyed using additive manufacturing
  • Transformation-induced plasticity in the heterogeneous microstructured Ti-Zr-Nb-Sn alloy via in-situ alloying with directed energy deposition
  • Study of microstructure and properties of in-situ alloyed AlCoCrFeNi(Y) high-entropy alloy by laser directed energy deposition method
• FGM1
  • Microstructure and Mechanical Properties of P21-STS316L Functionally Graded Material Manufactured by Direct Energy Deposition 3D Print
• Process Parameter6
  • Effect of Process Condition on Stainless Steel 316L Additively Manufactured by Laser Metal Deposition
  • Additive Manufacturing Optimization of Directed Energy Deposition-Processed Ti-6Al-4V Alloy using Energy Density and Powder Deposition Density
  • Effects of processing parameters and heat treatment on the microstructure and magnetic properties of the in-situ synthesized Fe-Ni permalloy produced using direct energy deposition
  • Effect of substrate yield strength and grain size on the residual stress of direct energy deposition additive manufacturing measured by neutron diffraction
  • Correlation between Cellular Structure Morphology and Anisotropic Yield in Additively Manufactured Stainless Steel 316L
  • Virtual surface morphology generation of Ti-6Al-4V directed energy deposition via conditional generative adversarial network
• Multi Material2
  • Fabrication of structural and compositional heterostructured CoCrNi–CoCrFeMnNi multi-material using direct energy deposition additive manufacturing
  • Interface characteristics and mechanical behavior of additively manufactured multi-material of stainless steel and Inconel
• Mechanial Properties6
  • Effects of Laser Power on the Microstructure Evolution and Mechanical Properties of Ti–6Al–4V Alloy Manufactured by Direct Energy Deposition
  • Characterization and Mechanical Properties of Stainless Steel 316L Fabricated Using Additive Manufacturing Processes
  • Delayed deformation-induced martensite transformation and enhanced cryogenic tensile properties in laser additive manufactured 316L austenitic stainless steel
  • Mechanical and magnetic properties of soft magnetic Fe–Ni permalloy produced by directed energy deposition processes
  • Heterostructured alloys with enhanced strength-ductility synergy through laser-cladding
  • Surface heterostructuring of laser-clad 316L stainless steel through texture-driven deformation twinning