1. PTFE Mesh Conveyor Belt
2. Heat resistant, Microwave safe
3. High drying efficiency
4. Non-toxic & non-stick
5. Great tensile strength
PTFE Coated Fiberglass Mesh Conveyor Belt
PTFE Coated Fiberglass Mesh Conveyor Belt is ideally suited for conveying products within highly efficient air distribution systems allowing optimised moisture removal to take place and is commonly used within ultra violet and infra red dryer units
The open area allows maximum air flow optimising drying times whilst its extreme properties make it a natural choice for dryer manufactures.
PTFE Coated Fiberglass Mesh Conveyor Belts are used in applications such as the drying of printed products for example; Point of display stands, T-shirts, glass and mass produced paper prints. Print dryers usually opt for Ultra violet, Infra red or hot air as the heat source to dry.
Other applications range from the drying of cereals, non woven's, charcoal interlinings, carpet & carpet tiles, printed circuit boards and shrink-wrap tunnels but to name a few.
Features & Benefits
PTFE open mesh conveyor belting is light weight and cost effective therefore is easy to handle and less expensive than wire alternatives that can be difficult to replace. Often supplied with a metallic clipper type fastener these style of belts can easily be removed and replaced therefore minimising downtime and saving money. This material can be offered in carbon loaded black therefore providing antistatic properties.
· Temperature resistance: -70° C up to plus 260° C
· Chemical Inertness
· Ultraviolet, Infra-red, microwave, radio frequency resistance
· Non-Stick surface
· Lightweight and energy efficiency for economical operation
4X4 open area mesh is available in widths up to 4000mm wide and can be supplied at any length required. In addition film, glass or kevlar can be applied as edge reinforcement depending of the environment it will be used within. There are various methods of joining screen-printing belts however the metallic clipper or spiral types are more typical
|Model||Mesh Size||Material||Thickness||Weight||Temp Resistance||Max Width||Tensile Strength|