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Properties of alloy 625 claddings made with laser and CMT methods
Jonne Näkki
Research output
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Book/Report
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Doctoral thesis
›
Monograph
1476
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Dive into the research topics of 'Properties of alloy 625 claddings made with laser and CMT methods'. Together they form a unique fingerprint.
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Engineering
Laser Cladding
100%
Laser Cladding Process
100%
Melt Pool
100%
Travel Speed
100%
Welds
75%
Electrical Energy
50%
Centreline
50%
Melt Flow
50%
Feedstock Powder
50%
Hot Crack
50%
Filler Material
50%
Arc Welding Process
50%
Feedstock Material
50%
Thermal Gradient
50%
Laser Beams
50%
Low-Temperature
25%
Dilution
25%
Applicability
25%
Efficiency Value
25%
Thin Layer
25%
Substrate Surface
25%
Corrosion Property
25%
Wear Resistance
25%
Common Method
25%
Deposition Rate
25%
Underfill
25%
Characteristic Feature
25%
Good Mechanical Property
25%
Power Source
25%
Component Metal
25%
Square Meter
25%
Lead Titanium
25%
Cladding Material
25%
Electric Arc Welding
25%
Cold Metal Transfer
25%
Corrosion Resistance
25%
Temperature Gradient
25%
Keyphrases
Alloy 625
100%
Laser Methods
100%
CMT Process
100%
CMT Method
100%
Alloy Properties
100%
Laser Cladding
33%
Laser Cladding Process
33%
Melt Pool
33%
Travel Speed
33%
Rutile
25%
MIG Process
25%
Pulse MIG
25%
Corrosion Resistance
16%
Overlay Welding
16%
Electrical Energy
16%
Filler Material
16%
Laser Beams
16%
Feedstock Powder
16%
Boron
16%
Feedstock Materials
16%
Aluminum Content
16%
Hot Crack
16%
Dendritic Structure
16%
Titanium Content
16%
Melt Flow
16%
Cover Rate
16%
Arc Welding Process
16%
Weld Overlay
16%
Arc Power
16%
Sulfur
8%
Thermal Gradient
8%
Low Dilution
8%
Energy Consumption
8%
Deposition Rate
8%
Corrosion
8%
Efficiency Value
8%
Process Efficiency
8%
Substrate Surface
8%
Corrosion Properties
8%
Nozzle
8%
Wear Resistance
8%
Single Bead
8%
Columnar
8%
Austrian
8%
Manganese Content
8%
Underfill
8%
Good Mechanical Properties
8%
Backward Motion
8%
Digitally Controlled
8%
Deep Penetration
8%
Impurity Elements
8%
Nickel-based Alloy
8%
Fine-grained Microstructure
8%
Silicon Content
8%
Cladding Material
8%
Equiaxed
8%
Stringer
8%
Nickel Alloys
8%
Cold Metal Transfer
8%
Welding Power Supply
8%
Weldability
8%
Inward Flow
8%
Low Temperature Gradient
8%
Consumption Values
8%
Track Displacement
8%
Wear Load
8%
Arc Welding
8%
Solidification Temperature
8%
Metal Powder
8%
Average Voltage
8%
Aluminum-manganese Alloy
8%
Metal Components
8%
Material Science
Aluminum
100%
Titanium
100%
Feedstock
80%
Corrosion
60%
Arc Welding
60%
Boron
40%
Welding
40%
Nickel Alloy
40%
Silicon
20%
Corrosion Resistance
20%
Dilution
20%
Manganese
20%
Wear Resistance
20%
Solidification
20%
Weldability
20%
Weld Overlay
20%
Surface (Surface Science)
20%