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Weldability of accelerated-cooled (AcC) high strength TMCP steel HT50
Pekka Nevasmaa, Mark Cederberg, Martti Vilpas
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Dive into the research topics of 'Weldability of accelerated-cooled (AcC) high strength TMCP steel HT50'. Together they form a unique fingerprint.
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Keyphrases
High Strength
100%
Weldability
100%
Arc Energy
100%
TMCP Steel
100%
Weld Metal
25%
Energy Use
25%
Charpy-V
25%
Filler Material
25%
Toughness Properties
25%
Plate Thickness
25%
Energy Range
25%
Steel Weldments
25%
Weldability Tests
25%
Toughness
12%
Impact Energy
12%
QT Steels
12%
Material Composition
12%
Strength Level
12%
Energy Requirement
12%
Mechanical Testing
12%
Cooling Time
12%
HAZ Cracking
12%
Welding Experiment
12%
HAZ Toughness
12%
Mo-Ti
12%
Simulated HAZ
12%
Heavy Plate
12%
Welding Thermal Simulation
12%
FCAW Process
12%
Weld Toughness
12%
Normalized Steel
12%
Butt-welded Joint
12%
Low-temperature Toughness
12%
INIS
energy
100%
steels
100%
weldability
100%
welds
71%
haz
57%
metals
42%
simulation
28%
levels
28%
thickness
28%
plates
28%
fillers
28%
welding
28%
welded joints
28%
energy range
28%
values
14%
comparative evaluations
14%
low temperature
14%
cracking
14%
electrodes
14%
implants
14%
mechanical tests
14%
cooling time
14%
Engineering
Arc Energy
100%
Welds
87%
Charpy
25%
Weldment
25%
Filler Material
25%
Plate Thickness
25%
Surface Acoustic Wave
25%
Test Result
12%
Significant Change
12%
Impact Energy
12%
Material Composition
12%
Energy Requirement
12%
Mechanical Testing
12%
Cooling Time
12%
Thermal Simulation
12%
Material Science
Weldability
100%
Weld Metal
75%
Welded Joint
50%
Mechanical Testing
25%