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On thermal and mechanical behavior of cast irons at elevated temperatures
Kalle Jalava
Department of Mechanical Engineering
Research output
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Thesis
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Doctoral Thesis
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Dive into the research topics of 'On thermal and mechanical behavior of cast irons at elevated temperatures'. Together they form a unique fingerprint.
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Material Science
Temperature
100%
Mechanical Property
100%
Graphite
100%
Cast Iron
100%
Dynamic Strain Aging
75%
Strain Rate
43%
Microstructure
18%
Thermal Conductivity
18%
Casting
12%
Alloying
12%
Mechanical Property
12%
Iron
6%
Thermal Property
6%
Alloy
6%
Ductility
6%
Physical Property
6%
Ferrite
6%
Work Hardening
6%
Engineering
Elevated Temperature
100%
Cast Iron
100%
Spheroidal
37%
Microstructure
18%
Thermal Conductivity
18%
Testing
12%
Room Temperature
12%
Silicon
12%
Casting
12%
Alloying
12%
Measurement System
12%
Tensile Loads
12%
Applications
6%
Iron
6%
Combines
6%
Optimization
6%
Performance
6%
Simulation
6%
Alloy
6%
Models
6%
Experiments
6%
Production
6%
Amplitudes
6%
Production Process
6%
Temperature
6%
Mechanical Properties
6%
Temperature Dependence
6%
Transients
6%
Windows
6%
Strain Hardening
6%
Load Case
6%
Deep Understanding
6%
Flow Stress
6%
Local Property
6%
Pearlite
6%
Rates of Strain
6%
Earth and Planetary Sciences
Temperature
100%
Iron
100%
Thermal Conductivity
18%
Microstructure
18%
Strain Rate
18%
Knowledge
12%
Room Temperature
12%
Casting
12%
Strength of Materials
12%
Thesis
6%
Utilization
6%
Show
6%
Purpose
6%
Model
6%
Creativity
6%
Simulation
6%
Need
6%
Shape
6%
Alloy
6%
Sensitivity
6%
Silicon
6%
Optimization
6%
Tool
6%
Parameter
6%
Experiment
6%
Amplitude
6%
Side
6%
Plane
6%
Fraction
6%
Occurrence
6%
Pearlite
6%
Temperature Dependence
6%
Replacement
6%
Fill
6%
Spheroid
6%
Work Hardening
6%
Physics
Temperature
100%
Iron
100%
Graphite
50%
Microstructure
18%
Strength of Materials
18%
Thermal Conductivity
18%
Room Temperature
12%
Knowledge
12%
Castings
12%
Alloying
12%
Performance
6%
Sides
6%
Work
6%
Alloy
6%
Silicon
6%
Simulation
6%
Independent Variables
6%
Temperature Dependence
6%
Gaps
6%
Amplitudes
6%
Plane
6%
Fractions
6%
Thermodynamic Properties
6%
Optimization
6%
Transients
6%
Pearlite
6%
Ductility
6%