FormFutura_ApolloX_ASA_Blue.xml.fdm_material

<?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>ApolloX</material>
      <color>Blue</color>
    </name>
    <color_code>#0957d6</color_code>
    <GUID>2ede401b-50b4-4308-b31c-1da9fd9cb129</GUID>
    <version>28</version>
    <description>
      ApolloX is a professional high-performance engineering filament, 
      which is based on an uniquely industrial-grade modified 
      ASA (Acrylonitrile Styrene Acrylate) compound. ApolloX has been 
      modified to have great thermal stability, improved filament flowing 
      behavior, zero-warping and flawless first- and interlayer adhesion 
      allowing you to 3D print objects with an almost injection-molded 
      precision. ApolloX is UV and weather resistant and by that ensuring 
      great color stability – combined with high strength and heat 
      resistant properties – which makes ApolloX a perfect engineering 
      filament for outdoor and automotive applications.
      Unique features
      UV &amp; weather resistant
      FDM/FFF-optimized
      Warp-free printing
      Optimized filament flowing behaviour, thermal stability, and inter-layer adhesion
      Excellent adhesion to heated glass plate, Kapton tape, PET tape and Formfutura EasyPad
      Greatly improved mechanical properties and strength
      Extremely high printing precision
      Printing with remarkable fine detail
      (fg)
    </description>
    <adhesion_info>
        Nozzle size: ≥ 0.15mm
        Layer height: ≥ 0.1mm
        Flow rate: ± 100%
        Print temp: ± 235 - 255° C *
        Print speed: Medium
        Retraction: Yes ± 5mm
        Heat bed: ± 80 - 90° C *
        Fan speed: 0-25%
        Experience level: Beginner / Intermediate
    </adhesion_info>
  </metadata>
  <properties>
    <weight>750</weight>
    <density>1.11</density>
    <diameter>2.85</diameter>
  </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">10</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">250</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  -->
    <cura:setting key="retraction_hop_enabled">false</cura:setting> <!-- when enabled, this lifts the nozzle while retracted and travelling; however this wears the Z spindle and doesnt bring significant benefits   --> 


    <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>