Advanced high powered converter system for vacuum induction furnaces
4,90 €
Auf Lager
Artikelnummer
00541_2009_02_08
Vacuum induction melting is a commonly used secondary metallurgy process for the production of extraordinarily pure metals. The vacuum level of such installations in a range of 10-1 to 10-5 mbar leads to a dielectric strength which is considerably lower than under atmospheric pressure. Because of this, the voltage of current-carrying parts is limited to around 600 V. That is the condition for the coil of Vacuum Induction Furnaces, too, so that high power output necessitates a high current level. Particular requirements on the converter technology are the result of that. In the following, an advanced converter system is described which supplies 4,000 kW at 600 V without an MF-transformer for one 8 t and one 17 t Vacuum Induction Furnace at Böhler Edelstahl in Kapfenberg, Austria
Autoren | Tristan Engelmann/Yilmaz Yildir, Herbert Luckabauer |
---|---|
Erscheinungsdatum | 01.02.2009 |
Format | |
Zeitschrift | heat processing - Issue 02 2009 |
Verlag | Vulkan-Verlag GmbH |
Sprache | English |
Seitenzahl | 3 |
Titel | Advanced high powered converter system for vacuum induction furnaces |
Beschreibung | Vacuum induction melting is a commonly used secondary metallurgy process for the production of extraordinarily pure metals. The vacuum level of such installations in a range of 10-1 to 10-5 mbar leads to a dielectric strength which is considerably lower than under atmospheric pressure. Because of this, the voltage of current-carrying parts is limited to around 600 V. That is the condition for the coil of Vacuum Induction Furnaces, too, so that high power output necessitates a high current level. Particular requirements on the converter technology are the result of that. In the following, an advanced converter system is described which supplies 4,000 kW at 600 V without an MF-transformer for one 8 t and one 17 t Vacuum Induction Furnace at Böhler Edelstahl in Kapfenberg, Austria |
Eigene Bewertung schreiben