Department of Mechanical Engineering

Fingerprint Dive into the research topics where Department of Mechanical Engineering is active. These topic labels come from the works of this organisation's members. Together they form a unique fingerprint.

Engineering & Materials Science

Hydrogen
Fatigue of materials
Solid oxide fuel cells (SOFC)
Temperature
Electrolytes
Fatigue crack propagation
Cracks
Fuel cells
Gases
Steel
Polymers
Wear of materials
Friction
Bearings (structural)
Heat transfer
Carbon
Water
Robots
Cathodes
Crack propagation
Anodes
Rotors
Microstructure
Air
Boiling liquids
Hydrides
Experiments
Cavitation
Lubrication
Diffusion in gases
Electrodes
Lasers
Aluminum alloys
Electrocatalysts
Hydrogenation
Manipulators
Sensors
Cartilage
Carbon steel
Oxygen
Metals
Hydrogen embrittlement
Hydrogen storage
Durability
Vortex flow
Catalysts
Metal molding
Powders
Composite materials
Austenitic stainless steel
Flow fields
Oxides
Liquids
Compressors
Plasticity
Crack tips
Computer simulation
Fluids
Trajectories
Substrates
Surface roughness
Wire
Defects
Membranes
Numerical analysis
Muscle
Grain boundaries
Martensite
Heat flux
Ignition
Degradation
Cooling
Twinning
Chemical analysis
Reforming reactions
Injection molding
Crystal structure
Flow rate
Stainless steel
Chemical mechanical polishing
Tribology
Robotics
Finite element method
Ultrahigh molecular weight polyethylenes
Refrigerants
Thermal conductivity
Actuators
Nitrogen
Electric potential
Gears
Crack initiation
Desorption
Stress intensity factors
Heat transfer coefficients
Controllers
Low carbon steel
Plastic deformation
Lubricants
Tissue
Graphene

Chemical Compounds

Hydrogen
Steel
Fatigue of materials
Gases
Cracks
Fatigue crack propagation
Temperature
Carbon
Solid oxide fuel cells (SOFC)
Hydrides
Crack propagation
Bearings (structural)
Microstructure
Electrolytes
Aluminum alloys
Wear of materials
Polymers
Powders
Hydrogenation
Water
Carbon steel
Friction
Metal molding
Metals
Oxides
Fuel cells
Lubrication
Plasticity
Hydrogen storage
Oxygen
Cartilage
Crystal structure
Stainless Steel
Composite materials
Heat transfer
Boiling liquids
Injection molding
Graphite
Twinning
Crack tips
Defects
Hydrogen embrittlement
Grain boundaries
Chemical analysis
Austenitic stainless steel
Tribology
Surface roughness
Electrodes
Air
Mechanical properties
Cathodes
X ray diffraction
Solid solutions
Low carbon steel
Nitrogen
Anodes
Martensitic transformations
Liquids
Cavitation
Silicon
Desorption
Lasers
Plastic deformation
Rubber
Lubricants
Crack initiation
Tissue
Lattice constants
Aluminum
Iron
Aging of materials
Stress intensity factors
Membranes
Sensors
Fracture toughness
Catalysts
Tensile strength
High strength steel
X rays
Ductility
Finite element method
Electrocatalysts
Experiments
Substrates
Strain rate
Ball milling
Magnesium
Sintering
Carbon Nanotubes
Strain hardening
Titanium
Hardness
Dehydrogenation
Durability
Nuclear magnetic resonance
Isotherms
Diffusion in gases
Film thickness
Fluids
Neutron powder diffraction

Physics & Astronomy

Chemistry and Materials

hydrogen
gases
polymers
water
hydrogen embrittlement
air
hydrogenation
carbon
liquids
oxygen
wire
plastic properties
hydrides
ductility
vapors
twinning
oxides

Engineering

fuel cells
solid oxide fuel cells
boiling
anodes
lubrication
cathodes
x rays
tribology
electrodes
crack tips
polishing
heating
ignition
evaporation
martensitic transformation
graphene
elastohydrodynamics

General

steels
cracks
cells
tubes
aluminum alloys
microstructure
flames
membranes
martensite
sensors
refrigerants
cooling
grain boundaries
sliding
vibration
catalysts
damage
evaluation
wettability
augmentation
simulation
desorption
atmospheres
precipitation hardening
metals
fluids
slip

Physics

electrolytes
heat transfer
temperature
gaseous diffusion
thermal conductivity
friction
heat flux
crack propagation
diffraction
heat transfer coefficients
cycles
heat
flow velocity
flow distribution

Aeronautics

cavitation flow

Life Sciences

cartilage

Aerospace Sciences

rotors
cavities

Mathematical and Computer Sciences

numerical analysis