Tubular Heaters are custom-formed in a wide variety of shapes to correspond to your requirements.
Tubular heaters can be used in almost any application. Straight Tubular Heaters can be clamped to metal surfaces or inserted in machined grooves for conductive heat transfer. Or use a formed Tubular to provide consistent heat in any type of special application. Tubular Heaters may be clamped, immersed in liquids, cast into metal or spaced away from the work as radiant heaters. They may also be positioned in ducts or vessels for heating air or other gases.
Tubular Heaters of proper rating, material and shape can be used in most heating applications requiring process temperatures up to 750o C (1382o F).
CONSTRUCTION
Tubular heaters use 80% Nickel 20% Chromium high grade coiled resistance wire as a heating core. This core is welded at both ends to pins that provide a cold section that varies in length depending on the application requirements. The coil-pin assembly is precisely centred inside a heavy gauge, oversize metal tube, and embedded inside a 96% pure, high-grade MgO insulating medium. This assembly is then compacted through a roll-reducing process that reduces the outside tube diameter to its final size, and transforms the MgO matrix into a rock-hard solid that acts as an excellent heat transferring medium, as well as an electric insulation with high dielectric strength. Finally, heaters are annealed inside a high-temperature furnace to eliminate internal stresses accumulated during the cold-forming and roll-reducing process to make them soft. Heating elements are then formed into special shapes, or supplied in their straight form. Proper electrical terminations are added to the final product.
ADVANTAGES
- Constructed with epoxy or silicone seals to resist moisture contamination (Oxidation and corrosion resistance)
- Compacted with insulating MgO that allows heat to transfer away from resistance wire to the sheath material and media with faster efficient heat up
- Virtually a limitless array of custom bend formation options, to include adapting heater element around space parameters – to maintain maximized efficient heating
FEATURES
- Incoloy® Sheath material
- Threaded fittings are brazed, crimped or welded to the cold section of the heater
- Nickel chromium resistance wire is welded to the terminal pins for a stronger positive electric connection to increase the life span of the heater
- MgO insulation fills the sheath to maximize the dielectric strength, promote efficient heat transfer, and prolong the life of the heater
- Stainless steel studs are welded to the terminal pins, which can be covered with protective Ceramic Terminal Covers
- Epoxy or silicone resin seals provide protection from moisture contamination. Seals can rate up to 390°F