Photo of Nak-Kyun CHO

Nak-Kyun CHO

Mr

20172019
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Fingerprint Dive into the research topics where Nak-Kyun CHO is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Engineering & Materials Science

Creep
Plasticity
Pipe
Structural integrity
Superheater tubes
Fatigue damage
Fatigue of materials
Recovery
Composite materials
Temperature
Durability
Aluminum
Titanium
Plastics
Piping systems
Fibers
Metals
Geometry
Unloading
Finite element method
Bearings (structural)
Hysteresis loops
Pipelines
Crack initiation
Nuclear energy
High temperature applications
Nuclear power plants
Thermal expansion
Boilers
Macros
Stress relaxation
Load limits
Bending moments
Materials properties
Thermal load
Power plants

Chemical Compounds

Creep
Superheater tubes
Fatigue of materials
Fatigue damage
Aluminum
Composite materials
Titanium
Structural integrity
Temperature
Durability
Metals
Recovery
Fibers
Geometry
Aluminum Oxide
Hysteresis loops
Crack initiation
Nuclear energy
High temperature applications
Nuclear power plants
Thermal expansion
Boilers
Macros
Load limits
Bending moments
Materials properties
Power plants

Physics & Astronomy

General

dwell
endurance
damage assessment
tubes
integrity
fibers
damage
geometry
crack initiation
thermal expansion
semiempirical equations
power plants
hysteresis
histories

Chemistry and Materials

metal matrix composites
aluminum
plastic properties
fiber composites
aluminum oxides

Physics

internal pressure
operating temperature

Mathematical and Computer Sciences

matrices

Engineering

nuclear power plants
boilers
outlets
bending moments
electricity