GMU:3DIY/LEDs Eindrucken: Difference between revisions

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= LED's Eindrucken =
= Embedding LEDs into translucent 3D-Print =
Katharina Esters - http://www.esters.es/


== 3D Printing around an LED ==


=== The first try ===
== The first try ==
[[File:Druckkl.jpg|thumb|600px|3D-model and printingprocess]]
[[File:Druckkl.jpg|thumb|600px|3D-model and printingprocess]]


To make a LED impression in a trial is not complicated at all. It merely needs a good plan for the process and a little bit of preparation: the LEDs are joined up to each other, the cable soldered, a switching system is thought out and finally a 3D shape is designed to enclose it.
[21:58:14] zirkular: To make an LED impression in on trial is not complicated at all. It merely needs a good plan for the process and a little bit of preparation: the LEDs are joined up to each other, the cable soldered, a switching system is conceived and finally a 3D shape is designed to enclose it. The fabrication process caused some complications. The extruder failed several times because the material got jammed. If noticed on time, the model was not lost, it just showed some flaws; the edges were not refined by another layer. The model was printed with using PLA. Due to the transparency it is a little bit harder to notice if the extruder is still working or not. For better transparency and faster printing a thin-walled 3D model should be designed, as the translucence is better and also the printing time is considerably shorter.
The fabrication process caused some complications. The extruder failed several times because the material got jammed. If noticed on time, the model was not lost, it just showed some flaws; the edges were not refined by another layer. The model was printed with using PLA. Due to the transparency it is a little bit harder to notice if the extruder is still working or not.  
 
For better transparency and faster printing a thin-walled 3D model should be designed, as the translucence is better and also the printing time is considerably shorter.
*1. Trial
*1. Trial
**1. The printing process starts with default settings from the program for PLA (with only 180°C printing temperature).
**1. The printing process starts with default settings from the program for PLA (with only 180°C printing temperature).
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**2. Presetting for PLA printing temperature: 205°C
**2. Presetting for PLA printing temperature: 205°C
**3. Congestion of the material still happens with higher temperature. It is reduced by tightening the screws.
**3. Congestion of the material still happens with higher temperature. It is reduced by tightening the screws.
**4. If the fan goes on and off often, this might have to do with the temperature setting, which is exactly on the limit of the cooling and not cooling.
**4. The fan often cylces between on and off, this might have to do with the temperature setting. The Setting is exactly at the limit between cooling and not cooling. In later firmware a hysteresis for this might help.
 
 


18.Nov.2010




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== www.esters.es ==
== ==
18.Nov.2010

Revision as of 21:18, 18 November 2010

Embedding LEDs into translucent 3D-Print

Katharina Esters - http://www.esters.es/


The first try

3D-model and printingprocess

[21:58:14] zirkular: To make an LED impression in on trial is not complicated at all. It merely needs a good plan for the process and a little bit of preparation: the LEDs are joined up to each other, the cable soldered, a switching system is conceived and finally a 3D shape is designed to enclose it. The fabrication process caused some complications. The extruder failed several times because the material got jammed. If noticed on time, the model was not lost, it just showed some flaws; the edges were not refined by another layer. The model was printed with using PLA. Due to the transparency it is a little bit harder to notice if the extruder is still working or not. For better transparency and faster printing a thin-walled 3D model should be designed, as the translucence is better and also the printing time is considerably shorter.

  • 1. Trial
    • 1. The printing process starts with default settings from the program for PLA (with only 180°C printing temperature).
    • 2. After 45 minutes the plinth base was printed
    • 3. After 3 hours and 45 minutes congestion of the material. Because of some reason the drive shaft spins, after a while the same problem occurred.
    • 4. The data cable got partly loose. The carriage is still working but the screw from the material transportation was standing still.

Abort of the printing process

Result
  • 2. Trial
    • 1. New trial with a new model
    • 2. Presetting for PLA printing temperature: 205°C
    • 3. Congestion of the material still happens with higher temperature. It is reduced by tightening the screws.
    • 4. The fan often cylces between on and off, this might have to do with the temperature setting. The Setting is exactly at the limit between cooling and not cooling. In later firmware a hysteresis for this might help.






18.Nov.2010