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HTK - Cuptor cu cameră, izolație metalică

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The metallic HTK range of Carbolite Gero high temperature furnaces consists of metal heaters made of Molybdenum or Tungsten.

The HTK series, made of metal, is available in four distinct sizes. The smaller HTKs with capacities of 8 and 25 liters are usually used in laboratories for research and development. The larger 80 and 120-litre furnaces are mostly utilized as pilot manufacturing systems or for large-scale production. The front door design of these furnaces allows for easy loading and unloading.

The metallic furnaces are constructed using tungsten (HTK W) or molybdenum (HTK MO), resulting in the highest possible purity of the inert atmosphere and final vacuum level. Upon request, a high vacuum upgrade is available. The most commonly used gases include Nitrogen, Argon, Hydrogen, and its mixtures.

The HTK series features heating elements and insulation made of either tungsten (HTK W) or molybdenum (HTK MO). A retort can be utilized to guide the gas flow, particularly for debinding applications or to enhance temperature uniformity. The maximum temperature for the HTK W is 2200 °C, while for the HTK MO, it is 1600 °C.

Video Produs: HTK - Cuptor cu cameră, izolație metalică

Exemple de Aplicații

carbon free atmosphere, metal injection moulding (MIM), metallization, sintering, thermal debinding, pyrolysis, synthesis, annealing, tempering

Prezentare generală

Furnace Type Usable Volume Temperatura maximă Număr zone încălzite Debinding Option
HTK 8 MO/W 8 1600 °C / 2200 °C 1 Torch/ condensate trap
HTK 25 MO/W 25 1600 °C / 2200 °C 1 Torch/ condensate trap
HTK 80 MO 80 1600 °C 4 Torch/ condensate trap
HTK 120 MO 120 1450 °C 4 Torch/ condensate trap

* The displayed values refer to a typical retort layout. The specific arrangement can be customized to meet the requirements of the customer.

HTK - Cuptor cu cameră, izolație metalică Explanation of the debinding and Sintering process steps of the HTK-MIM-3 furnace

The HTK-MIM-3 furnace program enables debinding and sintering of MIM components in two stages. The program's progress is displayed in a diagram, and important parameters such as pressure, gas flow, and gas type are recorded. The debinding stage utilizes partial pressure and high nitrogen gas flow, while the sintering stage focuses on temperature uniformity, resulting in a consistent density of the MIM parts.

HTK - Cuptor cu cameră, izolație metalică Inside the furnace

HTK 8 – 80 furnaces consist of:

  1. Heaters
  2. Retort
  3. Radiation Shields
  4. Thermocouple
  5. Gas Inlet
  6. Gas Outlet
  7. Vacuum Gauge
  8. Water-cooled vacuum vessel
Exemplary cross section of a HTK 8 molybdenum

Exemplary cross section of a HTK 8 molybdenum

HTK 120 furnaces consist of:

  1. Heaters
  2. Radiation Shields
  3. Gas inlet
  4. Gas Outlet
Heating cassette of the HTK 120, CAD drawing. Designed for highest lifetime and easy maintenance.

Heating cassette of the HTK 120, CAD drawing. Designed for highest lifetime and easy maintenance.

Afterburner assembly:

  1. Retort
  2. Gas outlet
  3. Trace heating
  4. Torch
  5. Position controlled ball valve
     

The torch of the afterburner ensures controlled conversion of remaining flammable or toxic volatiles into non-flammable gases.

The condensate trap may be installed for binder handling. During the process the trap is cooled to condense the binder. After the process the trap can be heated to release the binder safely which has been liquified.

Afterburner
Afterburner

Afterburner assembly:

  1. Gas outlet
  2. Trace heating
  3. Torch
  4. Position controlled ball valve
  5. Fresh oil pump
  6. Oil condenser
     

The stand alone safety purge tank ensures full safety for hydrogen applications. The furnace can only be started, if the tank is completely filled. Therefore the furnace is flood with nitrogen gas in case of major errors, such as power failure etc. The size is adjusted according to the furnace volume.

Heated gas outlet and vacuum line of the HTK 120
Stand alone safety purge tank

Heated gas outlet and vacuum line of the HTK 120

Stand alone safety purge tank

Pump down curve

Măsurători efectuate în condiții controlate de laborator. Rezultatele pot varia în funcție de variabilele specifice procesului, de exemplu, debitele de gaz, nivelurile de vid, materialul dimensiunea/densitatea, probei.

Leakage rate

Măsurători efectuate în condiții controlate de laborator. Rezultatele pot varia în funcție de variabilele specifice procesului, de exemplu, debitele de gaz, nivelurile de vid, materialul dimensiunea/densitatea, probei.

Cross section of HTK 8 with high vacuum upgrade. The turbo pump is at least connected via an DN100 flange.

  1. Turbo pump
  2. Vacuum valve
  3. DN 100 flange
Cross section of HTK 8 with high vacuum upgrade. The turbo pump is at least connected via an DN100 flange.
Schematic of a turbomolecular pump for high vacuum applications.

High vacuum upgrade

Schematic of a turbomolecular pump for high vacuum applications.

  • User friendly 12” touch panel, provides a detailed overview of the furnace status.
  • Configuration of an automatic programm
  • The smart software is mainly used for simple processes
  • The full automatic function ensures full flexibility
  • The pre-program ensures that the furnace is evacuated prior to heat treatment to ensure safety in case of any occuring errors
  • The system is based on an industrial standard Siemens PLC ensuring full safety.

  • Full visualization of the furnace with 19’’ touch panel, mainly for fully configured units or for the use of hydrogen (>5%)
  • Configuration of an automatic program
  • The automatic software is used for more complicated and hydrogen processes
  • The CC-IPC1900 version additionally includes an industrial PC with standard windows software
  • The system is based on an industrial standard Siemens F-PLC ensuring full safety even for hydrogen applications
  • The pre-program ensures a fully automated leakage test which takes place in overpressure and vacuum

Size of Panel12"
Number of programs12
Export data.csv
Remote accessda
Keyboardnu
Remote maintenancenu
Online changesnu
MFCda
Rotameterda
Heated gas outletda
Turbopumpda
Hydrogennu
Partial pressurenu
Sliding TCda
Size of Panel19"
Number of programs20
Export data.csv
Remote accessWith Siemens software
Keyboardopțional
Remote maintenanceopțional
Online changesda
MFCda
Rotameternu
Heated gas outletda
Turbopumpda
Hydrogenda
Partial pressureda
Sliding TCda
HTK 8 MO/16-2G smart 8 L usable volume, 1600 °C, Argon, Forming gas
HTK 8 MO/16-2G smart 8 L usable volume, 1600 °C, Argon, Forming gas
HTK 25 W/22-1G automatic 25 L usable volume, 2200 °C, Argon
HTK 25 W/22-1G automatic 25 L usable volume, 2200 °C, Argon
HTK 80 MO/16-3G automatic 80 L usable volume, 1600 °C, Argon, Nitrogen, and optional hydrogen equipment
HTK 80 MO/16-3G automatic 80 L usable volume, 1600 °C, Argon, Nitrogen, and optional hydrogen equipment
HTK 120 MO/14-3G automatic 120 L usable volume, 1400 °C, Argon, Nitrogen, Hydrogen, and partial pressure option
HTK 120 MO/14-3G automatic 120 L usable volume, 1400 °C, Argon, Nitrogen, Hydrogen, and partial pressure option

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