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MTI  |  SKU: HC12SiN

Max. 550C Heating Jacket and Temperature Controller with 12mm ID Si3N4 Pressing Die - EQ-HC-SiN-12

€2.672,06

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Max. 550C Heating Jacket and Temperature Controller with 12mm ID Si3N4 Pressing Die - EQ-HC-SiN-12

MTI

EQ-HC-SiN is designed for heating 12mm I.D. Silicon Nitride Pellet Pressing Die with Heating jacket (550°C Max.) and Temperature Controller. Programmable Temperature Controller is standard from 03/09/2021.

SPECIFICATIONS: 

 Model HC12SiN HC20SiN
Structure






 		The 12mm SiN Heatable Die Set includes:
  • A set of 12mm Silicon Nitride Pellet Pressing Die - Die-SiN
    • Pressing Die Sleeve: 30mm O.D. x 12mm I.D. x 40mm H
    • Upper Pushing Rod: 12mm Dia. x 40mm H
    • Lower Rod: 12mm Dia. x 10mm H
  • Mold Release Rod
  • Mold Release Sleeve
  • Upper and Lower Supporting Plate
  • Heat Insulation Plate with mica
  • Heating Jacket: 65mm O.D. x 40mm H
  • Copper Adapter: 39mm O.D. x 30mm I.D. x 40mm H
  • Single Set Point Temperature Controller - MTC1000
The 20mm SiN Heatable Die Set includes:
  • A set of 20mm Silicon Nitride Pellet Pressing Die - Die-SiN
    • Pressing Die Sleeve: 40mm O.D. x 20mm I.D. x 40mm H
    • Upper Pushing Rod: 20mm Dia. x 40mm H
    • Lower Rod: 20mm Dia. x 10mm H
  • Mold Release Rod
  • Mold Release Sleeve
  • Upper and Lower Supporting Plate
  • Heat Insulation Plate with mica
  • Heating Jacket
  • Single Set Point Temperature Controller - MTC1000
    Voltage
    Power 
    • 550W
    Working Temperature 
     and Pressure
    • Temperature: RT - 500 ºC       (Higher temperature available upon request at extra cost)
    • Pressure:       100 MPa    ( 1.1 metric ton )
    Temp. control method
     
    • Programmable PID temperature controller with a type-K thermocouple.
    • Temperature Accuracy: +/- 2°C
    Instruction Video     
        
    Application Note
    • Please always wear protective goggles during the operation !!!
    • The heating and cooling temperature rate should be below 5 °C/min
    • The volume of feeding material should be below 1/3 total volume of Si3N4 sleeve. Over-feeding material may cause damage to the sleeve at high temperatures.
    • Suggest using the 3'' Dia. Sieve Set No.200&450 Mesh to separate the 32~75 microns particles for pressing (Pic.1)
    • Please clean the mold via ethanol after the completion of each experiment.
    • We strongly recommend using professional laboratory hydraulic pressers that ensure the most even pressing interface and uniform pressure force as below ( Pic. 2 or 3 )
    • The pressing die is very brittle. No warranty is provided on the pressing die for any damage.
    • Pic.1    Pic. 2           Pic. 3
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