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FormFutura_HDglass_PETG_SeeThroughBlue.xml.fdm_material
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FormFutura_HDglass_PETG_SeeThroughBlue.xml.fdm_material
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<?xml version='1.0' encoding='utf-8'?>
<fdmmaterial version="1.3" xmlns="http://www.ultimaker.com/material" xmlns:cura="http://www.ultimaker.com/cura">
<metadata>
<name>
<brand>FormFutura</brand>
<material>HDglass</material>
<color>Blue Translucent</color>
</name>
<color_code>#0000FF</color_code>
<GUID>007334e0-5f3b-43c0-8b03-c675001667dd</GUID>
<version>4</version>
<description>
HDglass is a high performance filament based on an unique PETG blend resulting in an
amorphous, high strength, high gloss and ultra-transparent 3D printer filament.
HD stands for “Heavy Duty”, as HDglass is developed to have an optimal thermal stability and
by that perfect 3D printing flowing behaviour, resulting in a very easy to print 3D printer
filament with a remarkable high gloss, transparency and excellent properties with respect to strength,
oughness and temperature resistance.
</description>
<adhesion_info>Good first layer adhesion to a heated glass print bed and many other surfaces (DimaFix)
Nozzle size: ≥ 0.15mm
Layer height: ≥ 0.1mm
Flow rate: ± 110%
Print temp: ± 220 - 260° C
Print speed: High
Retraction: Yes ± 6mm
Heat bed: ± 60 - 80° C
Fan speed: 30-100%
Experience level: Beginner
</adhesion_info>
</metadata>
<properties>
<density>1.27</density>
<diameter>2.85</diameter>
<weight>750</weight>
</properties>
<settings>
<!-- print settings -->
<setting key="print temperature">250</setting> <!-- go high enough for better inter-layer-adhesion -->
<setting key="heated bed temperature">90</setting>
<setting key="adhesion tendency">0</setting>
<setting key="relative extrusion">1.0</setting>
<setting key="print cooling">25</setting>
<setting key="standby temperature">85</setting>
<setting key="retraction amount">5</setting>
<!-- Deprime settings -->
<setting key="anti ooze retract position">-4</setting>
<setting key="anti ooze retract speed">5</setting>
<setting key="break preparation position">-16</setting> <!-- How far the filament can be stretched before it breaks, while heated -->
<setting key="break preparation speed">2</setting> <!-- How fast the filament needs to be retracted just before breaking it off in a retraction [mm/s]-->
<setting key="break preparation temperature">240</setting> <!-- The temperature used to purge material, should be roughly equal to the highest possible printing temperature -->
<setting key="break position">-50</setting> <!-- How far to retract the filament in order to break it cleanly -->
<setting key="break speed">25</setting> <!-- [mm/s] The speed at which to retract the filament in order to break it cleanly -->
<setting key="break temperature">105</setting> <!-- The temperature at which the filament is broken for a clean break -->
<setting key="dwell time before break preparation move">0</setting>
<!-- material station (un)loading settings -->
<setting key="maximum park duration">14400</setting> <!-- 14400 = 4 hours "How long the material can be kept out of dry storage safely." -->
<setting key="no load move factor">0.98</setting> <!-- [default: 0.940860215] A factor indicating how much the filament gets compressed between the feeder and the nozzle chamber, used to determine how far to move the material for a filament switch -->
<setting key="flush purge speed">1.0</setting> <!-- default 0.5mm/s: sHow fast to prime the material after switching to a different material. -->
<setting key="flush purge length">100</setting> <!-- default 50mm: How much material to use to purge the previous material out of the nozzle (in length of filament) when switching to a different material -->
<setting key="end of filament purge speed">1.0</setting> <!-- default: 0.5mm: How fast to prime the material after replacing an empty spool with a fresh spool of the same material-->
<setting key="end of filament purge length">20</setting> <!-- default: 20mm: "How much material to use to purge the previous material out of the nozzle (in length of filament) when replacing an empty spool with a fresh spool of the same material." -->
<setting key="build volume temperature">45</setting> <!-- a setting of 42+ keeps AirManager more quiet, 45 keeps enough airflow going -->
<setting key="surface energy">70</setting>
<setting key="shrinkage percentage">1.5</setting> <!-- was 0.9, adjusted to 1.5 based on experience with large prints -->
<setting key="relative extrusion">1.0</setting> <!-- For material flow sensor -->
<setting key="flow sensor detection margin">0.8</setting> <!-- For material flow sensor -->
<setting key="retract compensation">0</setting> <!-- For material flow sensor -->
<!-- cura settings -->
<cura:setting key="xy_offset">0.0</cura:setting> <!-- "Amount of offset applied to all polygons in each layer. Positive values can compensate for too big holes; negative values can compensate for too small holes." -->
<cura:setting key="xy_offset_layer_0">-0.2</cura:setting> <!-- Initial Layer Horizontal Expansion: Amount of offset applied to all polygons in the first layer. A negative value can compensate for squishing of the first layer known as \"elephant's foot\"." -->
<cura:setting key="hole_xy_offset">0.1</cura:setting> <!-- Hole Horizontal Expansion: Amount of offset applied to all holes in each layer. Positive values increase the size of the holes, negative values reduce the size of the holes. -->
<cura:setting key="infill_pattern">cubicsubdiv</cura:setting> <!-- The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction..-->
<cura:setting key="alternate_extra_perimeter">yes</cura:setting> <!-- Prints an extra wall at every other layer. This way infill gets caught between these extra walls, resulting in stronger prints. -->
<cura:setting key="adhesion_type">skirt</cura:setting> <!-- when used with dimafix, there is perfect adhesion, so skirt is perfectly enough -->
<machine>
<machine_identifier manufacturer="Ultimaker B.V." product="Ultimaker S7" />
<machine_identifier manufacturer="Ultimaker B.V." product="Ultimaker S5" />
<machine_identifier manufacturer="Ultimaker B.V." product="Ultimaker S3" />
<hotend id="AA 0.25">
<setting key="hardware compatible">yes</setting>
</hotend>
<hotend id="AA 0.4">
<setting key="hardware compatible">yes</setting>
</hotend>
<hotend id="AA 0.8">
<setting key="hardware compatible">yes</setting>
<setting key="retraction amount">8</setting>
</hotend>
<hotend id="CC 0.6">
<setting key="hardware compatible">yes</setting>
</hotend>
</machine>
</settings>
</fdmmaterial>