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Dissolvable Supports in Powder Bed Fusion-Printed Stainless Steel
Christopher S. Lefky
, Brian Zucker
, David Wright
, Abdalla R. Nassar
, Timothy W. Simpson
, Owen J. Hildreth
Mechanical Engineering
Institute for Computational and Data Sciences (ICDS)
Materials Research Institute (MRI)
Research output
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Article
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peer-review
64
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Keyphrases
Stainless Steel
100%
Powder Bed Fusion
100%
Nitric Acid
50%
Complex Geometry
50%
Top 100
50%
Direct Dissolution
50%
Chromium
25%
Sodium
25%
High Selectivity
25%
Surface Sensitivity
25%
Monitoring System
25%
Non-self
25%
Thermal Annealing
25%
Etching Conditions
25%
Etching Process
25%
Machining Operations
25%
Normal Stress
25%
Dissolution Process
25%
Large Components
25%
Corrosion Potential
25%
Stress Relief
25%
Open Circuit Potential
25%
Hexacyanoferrate
25%
Chemical Stability
25%
316 Stainless Steel
25%
Recent Innovation
25%
Polarization Curve
25%
Single Material
25%
Support Capability
25%
Dimensional Accuracy
25%
Carbide Precipitates
25%
Chromium Carbide
25%
Sensitizing Agents
25%
Metal Parts
25%
Multi-material
25%
Directed Energy Deposition
25%
Q-curves
25%
Carburization
25%
Electrochemical Dissolution
25%
Additive Manufacturing System
25%
Surface Sensitization
25%
Chemical Dissolution
25%
Engineering
Stainless Steel
100%
Powder Bed Fusion
100%
Component Surface
66%
Sensitive Surface
33%
Etching Process
33%
Machining Operation
33%
Dissolution Process
33%
Gas Fuel Manufacture
33%
Stress Relief
33%
Additive Manufacturing
33%
Open Circuit Potential
33%
Polarization Curve
33%
Material Component
33%
Single Material
33%
Dimensional Accuracy
33%
Material Science
Stainless Steel
100%
Powder Bed Fusion
100%
Surface (Surface Science)
100%
Chromium
33%
Sodium
16%
Electronic Circuit
16%
Machining
16%
Corrosion Potential
16%
Carbide
16%
Three Dimensional Printing
16%
Stress Relieving
16%
Carburization
16%