Trianglelab Bi-metal heatbreak Threaded

Trianglelab Bi-metal heatbreak Threaded

125 kr

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Bi-Metal Heat break threaded version
Compatible with E3D Heatsink
Compatible with E3D Volcano Heat Block
Compatible with E3D PT100 Volcano Heat Block
Compatible with E3D V6 Heat Block
Compatible with E3D PT100 V6 Heat Block
Compatible with Prusa I3 MK3/MK3S
Compatible with Prusa I3 Bear MK3S

In the 3D printing world, heat break designs have gone trough a lot of changes. From the plain threaded tube in the past we reached the bi-metal heat break. This is a new design which improves thermal performance, and allows the use of lowered powered fans for less noise.

Why use a Bi-Metal heat break ?

Usually when you think about upgrading the heat break, it’s because you want to print higher temperature filaments. Most of the heat breaks used on regular printers are made from metal with a PTFE tube inside. This tube thermally insulates the filament before it reaches the nozzle.

Print higher temperature filaments

The PTFE lined heat break is fine for PLA prints because you don’t really need to go over 210C. But if you plan to print PETG or ABS it’s important to have a all-metal heat break to avoid any PTFE degradation and dangerous fumes.
An all-metal heat brake will allow you to reach up to 300C without any concerns, but there’s a downside. PLA is a bit harder to print with all-metal heat break.

Better heat transfer

Because the bi-metal heat break uses a better design, the temperature from the heatblock is not transferred to the cold end of the heat break. This means that you don’t need a lot of cooling surface if there’s not much heat to remove.
By upgrading to a bi-metal heat break, temperatures will be lower inside the cold zone and PLA prints with an all-metal heat break will be clog free.
The whole concept is to use a thin metallic tube between the hot zone and cold zone of the heat break. The thermal transfer is bad trough that thin metallic tube, and this translates in much improved performance in cooling. Trianglelab took the idea from Slice Engineering and manufactured this bi-metal heat break. It’s made from copper and it has a thin stainless steel tube running trough the heat break.
When installing the new bi-metal heat break, make sure you don’t overtighten it. The stainless steel tube is thin. If too much pressure is added, the tube can be bent and your precious bi-metal heat break will need to be replaced.
 

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