Heat Treatment

Heat Treatment
Heat treatment is a process where metals or their alloys are subjected to a controlled treatment by heating and cooling to alter their physical and mechanical properties without changing the product shape.

In-house facilities:

High Vacuum & High Pressure Furnace 

  • Maximum operating temperature: 1350 ºC
  • Working temperature-vacuum heating: 750 – 1350 ºC 
  • Working temperature-convection heating: 150 – 750 ºC 
  • Temperature uniformity: ±5 ºC 
  • Max. cooling gas pressure: 6 bar 
  • Operating Vacuum: 10-5 mbar range

Split Three Zone Tube Furnace 

  • Maximum operating temperature: 1200 °C
  • Three independently controlled heat zones to ensure excellent thermal uniformity
  • An 8-channel thermocouple data logger 
  • Inert gas purging facility


Stress Relieving Retort Vacuum Furnace 

  • Maximum operating temperature: 800 °C. 
  • 3 thermocouples to monitor load temperature, load over-temperature & element temperature. 
  • Rotary vane vacuum pump & an inert/reducing gas purging. 
  • Data logging facility to record temperature

Ultra-Cold Chest freezer (Cryogenic treatment unit) 

  • Minimum operating temperature: - 80 °C 
  • Controlled cooling and reheating 
  • Temperature uniformity: ±5 ºC
Creganna Medical, Creganna Medical Devices, catheter tubing, PTCA catheter, PTCA catheter tubing, PTCA catheter hypotube, PTA catheter, PTA catheter tubing, PTA catheter hypotube, angioplasty, endovascular, cardiovascular, interventional radiology, peripheral vascular, medical device design, outsourced medical device design, medical device tubing, stainless steel tubing, medical device shafts, tubing, flexible metal tubing, braided catheter tubing, braided tubing, minimally invasive delivery device shafts, delivery device shafts, delivery shafts, medical device manufacturing, medical device outsourcing, medical device components, medical device prototype, medical device prototypes, extruded tubing prototype, catheter prototype, catheter prototypes, catheter design, medical design, minimally invasive medical device design, medical device, minimally invasive, medical devices