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Saturday, 9 October 2010

First DIY Heated-Bed build.

I had some parts on order for a Heated bed - Both the Alu Clad resistors and the Aluminium was quoted as two weeks delivery, so I used a rather scratched bit I already had to test a Heated bed.


MDF base, then a layer of Aluminium Foil (not shown)
Opal Polycarbonate 3mm sheet.
Silicone baking sheet (240 deg rated)
Then 3mm Aluminium sheet.

And because of not having my Resistors, I didn't want to use Nichrome Wire, so I went for a quick and dirty method others seem to have had some success with...

A brand new Iron for just £3.84 (1/4 the price of my resistor order) - It was also a good plan getting the cheapest Iron, as this just had a very thin Stainless sheet over a nice cast Aluminium base, and it was very small and Light -
So Rip-off the Stainless sheet, and remove the red silicone blob.

It has 3 mounting points already, they just need to be drilled through.
Sand the base with fine wet and dry.
Add a fine layer of heatsink compound and fix to Aluminium plate.
Wire it up and isolate.

Assembled and a glass hot-plate (£1.50) on top, this should be good for PLA (not tested yet).

For PLA It's getting 55 deg C-in the middle and about 50 deg C around the edges, may need a little more tweaking.

Without the glass and at maximum power I can get it up to 130deg C (120 edge) so it should just about be ok for ABS? - Hopefully I can test it tomorrow.

The MDF only gets slightly warm so it seems to be a reasonable use of materials, I would have liked to use PTFE Sheet, but maybe on the next one.

The very next day my Aluminium order turned up, so at least I can build a really nice one for the next machine...

Still waiting for my resistors to get here, but I'm really happy with the Iron for now.

RichRap

2 comments:

  1. How did you power the Iorn element.. by mains..or low V

    ReplyDelete
  2. Sorry Didn't spot this comment -

    I powered it with mains, it's the complete Iron, just cut-down body/parts and the thermal trip has been bent to allow a slightly higher operational temperature.

    ReplyDelete

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