_{<_shead>Ontotherm (Clockwork Framework Structure)
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problem (Real World)
heating equipment (Conceptual World)
inductor calculation (Choice of the Simulation Model)
parameter studies (Simulation Runs of the Temperature)
validation tests (Comparison Between Simulation and Measured Temperature Distribution for the Real World User} _{<_shead>problem (Real World)
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induction heating of bars
induction heating of billets
induction heating of tubes or pipes
induction heating of slabs
induction heating of sheets
induction heating of strips
induction heating of wires} _{<_shead>induction heating of bars
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round-bar heating
square-bar heating
rectangular-bar heating} _{<_shead>induction heating of billets
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round-billet heating
square-billet heating
rectangular-billet heating} _{<_shead>induction heating of tubes or pipes
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round-tube-or-pipe heating
square-tube-or-pipe heating
rectangular-tube-or-pipe heating} _{<_shead>heating equipment (Conceptual World)
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main transformer
frequency converter
heating machine
recooling unit
PLC} _{<_shead>frequency converter
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parallel-circuit converter
serial-circuit converter} _{<_shead>parallel-circuit converter
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Thyristor type
IGBT type
MOSFET type} _{<_shead>serial-circuit converter
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high-frequency converter} _{<_shead>IGBT type
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Elomat 8
Elomat 16
Elomat 22
Elomat 32} _{<_shead>heating machine
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BTH
CTH
ETH
PTH
RTH
STH
VTH} _{<_shead>BTH
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Type 1500
Type 2400
Type 3600
Type 4800
Type 6000
Type 7200} _{<_shead>CTH
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bar heating
billet heating} _{<_shead>ETH
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partial heating
edge heating
full-body heating
heating of thixo bars} _{<_shead>PTH
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longitudinal-field heating
transversal-field heating} _{<_shead>RTH
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full-body heating of tubes
seam heating of tubes} _{<_shead>STH
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f. AMP 30
f. AMP 50
f. AMP 70
f. AMP 80} _{<_shead>VTH
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3600
4800
6000} _{<_shead>recooling unit
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water cooled
air cooled} _{<_shead>water cooled
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less 50 kW
less 100 kW
less 200 kW
less 500 kW
less 1000 kW
less 2000 kW} _{<_shead>PLC
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Siemens
Allan Bradley
Mitsubishi} _{<_shead>Siemens
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S5
S7} _{<_shead>inductor calculation (Choice of the Simulation Model)
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1D temperature calculation
FEM temperature calculation with ANTRAS
FEM field and temperature calculation with ANSYS} _{<_shead>1D temperature calculation
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calculation of bar heating
calculation of billet heating} _{<_shead>calculation of bar heating
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regular for bars
degressive for bars
stop and go for bars} _{<_shead>calculation of billet heating
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regular for billets
degressive for billets
stop and go for billets} _{<_shead>parameter studies (Simulation Runs of the Temperature)
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Optimisation of the temperature distribution
Documentation and discussion of the results for each possible heating machine} _{<_shead>validation tests (Comparison Between Simulation and Measured Temperature Distribution for the Real World User
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Determination of the difference between calculated and measured temperature distribution over time for the heated parts
Determination of the difference between calculated and measured temperature distribution over the cross section for the heated parts}