Soldadura de herramientas magnéticas de acero inoxidable
  • Soldadura de herramientas magnéticas de acero inoxidable

Las fotos son solo para fines informativos. Ver especificaciones de producto

please use latin characters

Fabricante: DACPOL SERVICE

Soldadura de herramientas magnéticas de acero inoxidable

Brazing a magnetic steel cutting tool

Objective

To heat a magnetic steel cutting tool for a brazing application; the end product is a cutter for the logging industry

Material
  • Various magnetic steel cutting tools with carbide tips
  • Braze alloy
Temperature 871°C
Frequency 55kHz
Equipment
  • Ambrell EKOHEAT 45 kW, 50 to 150 kHz induction heating system equipped with a remote workhead containing eight 2 uf capacitors for a total of 2 uf
  • A multiple position, three-turn helical induction heating coil developed for this application
Process

The multiple-position coil was used to test the brazing application on a large rectangular cutting head. With an EKOHEAT 45 kW power supply, the part can be heated to temperature within 150 seconds. Despite testing occurring on a 45kW /100 kHz power supply, Ambrell actually recommends an EKOHEAT 50 kW/30 kHz
power supply. This unit can deliver power at lower voltages due to increased capacitance. This results in the unit running at a lower frequency. Since it runs at lower voltages, the Ambrell Auto Tap feature can be leveraged.
Auto Tap is a feature in Ambrell EKOHEAT power supplies which allows the transformer tap to automatically change during a heat cycle. This is particularly beneficial when
magnetic properties experience changes during heating, which is the case here. It improves the power delivered during the heat cycle and can reduce the heat cycle by at least 20
seconds

Results
  • Speed: Induction is able to rapidly heat the parts to temperature, especially with the EKOHEAT’s Auto Tap feature
  • Expertise: The Ambrell Applications Lab used their expertise to create the right solution for the system and recommend ways to maximize the system hardware

Envíe una consulta

¿Estás interesado en este producto? ¿Necesita información adicional o precios individuales?

Contacta con nosotras
SOLICITA EL PRODUCTO close
Gracias por enviar tu mensaje. Responderemos lo antes posible.
SOLICITA EL PRODUCTO close
Vistazo

Añadir a la lista de deseos

Usted debe estar conectado

Brazing a magnetic steel cutting tool

Objective

To heat a magnetic steel cutting tool for a brazing application; the end product is a cutter for the logging industry

Material
  • Various magnetic steel cutting tools with carbide tips
  • Braze alloy
Temperature 871°C
Frequency 55kHz
Equipment
  • Ambrell EKOHEAT 45 kW, 50 to 150 kHz induction heating system equipped with a remote workhead containing eight 2 uf capacitors for a total of 2 uf
  • A multiple position, three-turn helical induction heating coil developed for this application
Process

The multiple-position coil was used to test the brazing application on a large rectangular cutting head. With an EKOHEAT 45 kW power supply, the part can be heated to temperature within 150 seconds. Despite testing occurring on a 45kW /100 kHz power supply, Ambrell actually recommends an EKOHEAT 50 kW/30 kHz
power supply. This unit can deliver power at lower voltages due to increased capacitance. This results in the unit running at a lower frequency. Since it runs at lower voltages, the Ambrell Auto Tap feature can be leveraged.
Auto Tap is a feature in Ambrell EKOHEAT power supplies which allows the transformer tap to automatically change during a heat cycle. This is particularly beneficial when
magnetic properties experience changes during heating, which is the case here. It improves the power delivered during the heat cycle and can reduce the heat cycle by at least 20
seconds

Results
  • Speed: Induction is able to rapidly heat the parts to temperature, especially with the EKOHEAT’s Auto Tap feature
  • Expertise: The Ambrell Applications Lab used their expertise to create the right solution for the system and recommend ways to maximize the system hardware
Comentarios (0)