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Heating system uniform magnetic - UMH M
At the UMH (Uniform Magnetic Heating) process the work piece to be heated is placed into an al-
ternating magnetic field. The changing of the polarization generates friction losses in the part and
therefore heat. This innovative process is excellent controllable....
ternating magnetic field. The changing of the polarization generates friction losses in the part and
therefore heat. This innovative process is excellent controllable....
Heating system uniform magnetic - UMH M
At the UMH (Uniform Magnetic Heating) process the work piece to be heated is placed into an al-
ternating magnetic field. The changing of the polarization generates friction losses in the part and
therefore heat. This innovative process is excellent controllable....
ternating magnetic field. The changing of the polarization generates friction losses in the part and
therefore heat. This innovative process is excellent controllable....
Heating system uniform magnetic - UMH L
At the UMH (Uniform Magnetic Heating) process the work piece to be heated is placed into an alternating magnetic field.
The changing of the polarization generates friction losses in the part and therefore heat.
This innovative...
The changing of the polarization generates friction losses in the part and therefore heat.
This innovative...
Heating system uniform magnetic - UMH L
At the UMH (Uniform Magnetic Heating) process the work piece to be heated is placed into an alternating magnetic field.
The changing of the polarization generates friction losses in the part and therefore heat.
This innovative...
The changing of the polarization generates friction losses in the part and therefore heat.
This innovative...
Heating system uniform magnetic - UMH C
At the UMH (Uniform Magnetic Heating) process the work piece to be heated is placed into an alternating magnetic field. The changing of the polarization generates friction losses in the part and
therefore heat.
This innovative process is excellent...
therefore heat.
This innovative process is excellent...
Heating system uniform magnetic - UMH C
At the UMH (Uniform Magnetic Heating) process the work piece to be heated is placed into an alternating magnetic field. The changing of the polarization generates friction losses in the part and
therefore heat.
This innovative process is excellent...
therefore heat.
This innovative process is excellent...
Forging furnace - HIF
1. Preformed HIF forgings for turbine discs, 2. Isothermal forging system for the production of large rotating components from titanium or superalloy
A final consolidation step in powder metallurgy is used to...
A final consolidation step in powder metallurgy is used to...
Forging furnace - HIF
1. Preformed HIF forgings for turbine discs, 2. Isothermal forging system for the production of large rotating components from titanium or superalloy
A final consolidation step in powder metallurgy is used to achieve full density and full strength. The more common consolidation methods are:
Sintering;
Hot isostatic pressing;
Forging;
Hot extrusion.
Parts from metals and alloys, such as titanium and various superalloys, that are hard to shape and are used in jet-engine parts subjected to high stresses, as well as metals such as molybdenum which retain high strength at high temperatures are usually finished by hot isothermal forging (HIF). Hot isothermal forging (HIF) has developed in recent years into an important and for many applications indispensable process for producing high-quality parts in near net shape.
A final consolidation step in powder metallurgy is used to achieve full density and full strength. The more common consolidation methods are:
Sintering;
Hot isostatic pressing;
Forging;
Hot extrusion.
Parts from metals and alloys, such as titanium and various superalloys, that are hard to shape and are used in jet-engine parts subjected to high stresses, as well as metals such as molybdenum which retain high strength at high temperatures are usually finished by hot isothermal forging (HIF). Hot isothermal forging (HIF) has developed in recent years into an important and for many applications indispensable process for producing high-quality parts in near net shape.
Drying furnace / custom / for aeronautics - max. 200 °C, 726 l | E123
Drying at 85°C of containers containing resin.
Technical Data:
Volume: 726L
Maximum Temperature: 200°C
...
Technical Data:
Volume: 726L
Maximum Temperature: 200°C
...
Drying furnace / custom / for aeronautics - max. 200 °C, 726 l | E123
Drying at 85°C of containers containing resin.
Technical Data:
Volume: 726L
Maximum Temperature: 200°C
...
Technical Data:
Volume: 726L
Maximum Temperature: 200°C
...
Heating furnace / custom / for aeronautics - max. +200 °C, 125 l | G309
Industrial oven 125L.
Technical Data:
Volume: 125L
Maximum Temperature: 200°C
...
Technical Data:
Volume: 125L
Maximum Temperature: 200°C
...
Heating furnace / custom / for aeronautics - max. +200 °C, 125 l | G309
Industrial oven 125L.
Technical Data:
Volume: 125L
Maximum Temperature: 200°C
...
Technical Data:
Volume: 125L
Maximum Temperature: 200°C
...
Custom furnace / for aeronautics - max. 300 °C, 3 000 l | G092
Expansion and degassing of parts at 250°C.
Technical Data:
...
Custom furnace / for aeronautics - max. 300 °C, 3 000 l | G092
Expansion and degassing of parts at 250°C.
Technical Data:
...