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Heat pipes are initially circular, but can be customized into two - or three-dimensional shapes through a series of bending and flattening processes. Custom heat pipes can transfer heat from the source to almost anywhere the design requires.
For custom heat pipes, we can produce different diameters and lengths. The most common diameters are 4 mm, 5 mm, 6 mm, 8 mm and 10 mm. The length can also vary from 80 mm to 500 mm. The working fluid can be H20 distilled water or CH3OH methanol.
· Custom design and bend formations available to suit your application, to replicate an existing design, or repair a faulty element.
· Heat wire spiral and cold length designed to match application.
· Sheath can be protected from atmospheric corrosion and mechanical abuse.
· Silicone resin or epoxy resin seal options available for moisture proofing the elements.
· Various termination options available including stud, plain pin, quick connect, lead-wire, bulkhead fitting, locator washer etc.
· Available with or without a custom mounting bracket.
· Sheath can be manufactured in copper, stainless steel, Incoloy®, or titanium.
· The sheath surrounds a helical coil of nickel- chrome resistance wire, centered and tightly compacted by an electrical insulator and heat transfer medium of magnesium oxide.
· WNH Heating typically use Incoloy® for 6.7 mm diameter, titanium for 8 mm diameter, and Incoloy® 800 or Incoloy® 840 for 11 mm diameter.
Typically used for:
· Heating platens for applications such as printing.
· Constant heat for radiant and process heating.
· High temperature heating for ovens and seal bars.
· Immersion heating for liquids, gases, and chemicals.
· Preventing ice formation in cooling and freezer units.
FAQ:
1.Are you factory?
Yes, we are factory, all customers are more than welcome to visit our factory .
2.What are the available product certifications?
We have certifications such as: ATEX, CE, CNEX. IS014001, OHSAS18001,SIRA, DCI. Etc
3.How Do Tubular Heating Elements Work?
Tubular heating elements transfer heat through direct exposure to a liquid, solid, or gas. They are configured to a specific watt density, size, shapes, and sheath based on their specific application. They can reach temperatures of 750 degrees centigrade or higher when configured properly.
4.What Mediums Can Tubular Heating Elements Be Used For?
Tubular heating elements can be used for heating a variety of mediums including liquids, gases, and solids. Tubular heating elements in conduction heaters use direct contact for heating solids. In convection heating, elements transfer heat between a surface and a gas or liquid.
 | Production Process |
| Application |
| Packing |
| QC & Aftersales Service |
| Certificates |
Heat pipes are initially circular, but can be customized into two - or three-dimensional shapes through a series of bending and flattening processes. Custom heat pipes can transfer heat from the source to almost anywhere the design requires.
For custom heat pipes, we can produce different diameters and lengths. The most common diameters are 4 mm, 5 mm, 6 mm, 8 mm and 10 mm. The length can also vary from 80 mm to 500 mm. The working fluid can be H20 distilled water or CH3OH methanol.
· Custom design and bend formations available to suit your application, to replicate an existing design, or repair a faulty element.
· Heat wire spiral and cold length designed to match application.
· Sheath can be protected from atmospheric corrosion and mechanical abuse.
· Silicone resin or epoxy resin seal options available for moisture proofing the elements.
· Various termination options available including stud, plain pin, quick connect, lead-wire, bulkhead fitting, locator washer etc.
· Available with or without a custom mounting bracket.
· Sheath can be manufactured in copper, stainless steel, Incoloy®, or titanium.
· The sheath surrounds a helical coil of nickel- chrome resistance wire, centered and tightly compacted by an electrical insulator and heat transfer medium of magnesium oxide.
· WNH Heating typically use Incoloy® for 6.7 mm diameter, titanium for 8 mm diameter, and Incoloy® 800 or Incoloy® 840 for 11 mm diameter.
Typically used for:
· Heating platens for applications such as printing.
· Constant heat for radiant and process heating.
· High temperature heating for ovens and seal bars.
· Immersion heating for liquids, gases, and chemicals.
· Preventing ice formation in cooling and freezer units.
FAQ:
1.Are you factory?
Yes, we are factory, all customers are more than welcome to visit our factory .
2.What are the available product certifications?
We have certifications such as: ATEX, CE, CNEX. IS014001, OHSAS18001,SIRA, DCI. Etc
3.How Do Tubular Heating Elements Work?
Tubular heating elements transfer heat through direct exposure to a liquid, solid, or gas. They are configured to a specific watt density, size, shapes, and sheath based on their specific application. They can reach temperatures of 750 degrees centigrade or higher when configured properly.
4.What Mediums Can Tubular Heating Elements Be Used For?
Tubular heating elements can be used for heating a variety of mediums including liquids, gases, and solids. Tubular heating elements in conduction heaters use direct contact for heating solids. In convection heating, elements transfer heat between a surface and a gas or liquid.
| Production Process |
| Application |
| Packing |
| QC & Aftersales Service |
| Certificates |
