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Micromechanics of 3D printed Metals
Kinga Somlo
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Ph.D. thesis
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Dive into the research topics of 'Micromechanics of 3D printed Metals'. Together they form a unique fingerprint.
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Engineering
Anisotropic
33%
Representative Volume Element
33%
Additive Manufacturing
33%
Simulation
33%
Mechanical Properties
33%
Austenitic Stainless Steel
33%
Experimental Result
16%
Material Parameter
16%
Boundary Effect
16%
Failure Mechanism
16%
Numerical Prediction
16%
Produced Material
16%
Length Scale
16%
Material Microstructure
16%
Micromechanics
16%
Tensile Test
16%
Multiple Load Case
16%
Customisation
16%
Grain Boundary
16%
Relative Orientation
16%
Ti-6al-4v
16%
Crystal Plasticity Model
16%
Fusion Process
16%
Build Direction
16%
Crystallographic Texture
16%
Characteristics
16%
Testing
16%
Yields
16%
Production
16%
Fracture
16%
Determines
16%
Manufacturing Engineering
16%
High Potential
16%
Physics
Crystal Plasticity
100%
Metal
50%
Strength of Materials
33%
Additive Manufacturing
33%
Simulation
33%
Defects
16%
Anisotropy
16%
Micromechanics
16%
Titanium Alloys
16%
Independent Variables
16%
Fracture
16%
Grain Boundaries
16%
Computational Method
16%
Material Science
Material
50%
Tensile Loads
33%
Mechanical Property
33%
Finite Element Methods
33%
Bone
33%
Anisotropic Material
16%
Material Testing
16%
Micromechanics
16%
Laser Powder Bed Fusion
16%
Mechanical Property
16%
Defect
16%
Grain Boundary
16%
Titanium Alloys
16%