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Original-Prusa-MINI/DOCUMENTATION/PRINT SETTINGS/recommended print settings for Original Prusa MINI.md
akukan 6bdd616ca3 Documentation, BOM and source code 
Documentation, BOM and source code

Co-Authored-By: Robert Turinský <rturinsky@users.noreply.github.com>
2020-08-19 12:59:38 +02:00

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Recommended print settings :

Printer : Original Prusa MINI

Print settings : 0.20mm Quality

Material : Prusament PETG

Nozzle : 0.4 mm

Layer : 0.2 mm

Support : no supports

Edit :

Infill pattern : grid

Infill density : 10 %


Parts :

  • MINI-z-bottom-cover

  • MINI-z-bottom-cable-cover

  • MINI-fan-spacer

  • MINI-fan-spacer-clip

  • MINI-fsenzor-box

  • MINI-fsenzor-cover

  • MINI-fsenzor-lever

  • MINI-minda-holder

  • MINI-inspection-door

  • MINI-knob

  • MINI-heatbed-cable-cover-bottom

  • MINI-heatbed-cable-cover-top

  • MINI-rail-spoolholder

  • MINI-base-spoolholder

Recommended print settings :

Printer : Original Prusa MINI

Print settings : 0.20mm Quality

Material : Prusament PETG

Nozzle : 0.4 mm

Layer : 0.2 mm

Support : no supports

Edit :

Infill pattern : grid

Infill density : 20 %


Parts :

  • MINI-x-carriage

  • MINI-x-end

  • MINI-y-belt-holder

  • MINI-y-idler

  • MINI-y-plate-rear

  • MINI-y-plate-front

  • MINI-z-carriage-rear

  • MINI-z-carriage-front

  • MINI-z-bottom

  • MINI-z-top

  • MINI-extruder-rear

  • MINI-extruder-front

  • MINI-extruder-idler

  • MINI-display-box

Please keep in mind thermal expansion of used material especially in XY plane. Printed parts are tempered by heatbed - then cooled down to room temperature so parts shrink.

Apply this linear relation: delta D´ = D * gamma * delta T
	delta D´	= final dimension difference
	D		= original dimension
	gamma		= coefficient of thermal expansion for used material
	delta T		= printed part temperature difference between current temperature 
			  while it's printed and ambient temperature in use

Example:
material	PETG: 	HB temp. = 90 [°C]
			amb. temp. = 25 [°C] 
delta T		90 - 25 = 65 [°C]
gamma		0.000068 [m/m*°C] [1/°C] (doesn't matter if Celsius or Kelvin)
D		100 [mm]
Use basic unit!

delta D´ = D * gamma * delta T
delta D´ = 0.1 * 0.000068 * 65
delta D´ = 0.000442 [m] = 0.442 [mm]

Linear thermal expansion works for each layer if there's any delta T but every layer has different delta T if the heatbed temperates printed part - the higher layer position the smaller delta T. It's due to cooling printed part by ambient air and air flow from print fan.