AquaSolve - PVA - Natural
AquaSolve PVA (Polyvinylalkohol)
ist ein wasserlösliches Trägermaterial für den komplexen Multi-Extrusions-3D-Druck.
AquaSolve PVA ist ein 3D-Druckerfilament mit guter thermischer Stabilität und kann sein
3D-Druck bei relativ niedrigen Temperaturen.
Dies macht AquaSolve PVA zu einem idealen Trägermaterial für PLA-basierte Materialien mit
guter thermischer und chemischer Haftung.
Hauptmerkmale
- Hervorragende (kalte) Wasserlöslichkeit
- Gute thermische Stabilität, was zu einem geringeren Risiko einer Verschlechterung / Kristallisation innerhalb der Düse führt Maximale thermische Stabilität von 210 ° C, getestet bis zu 256 Sekunden ohne Durchfluss Biologisch abbaubar, sobald es in Wasser gelöst ist Sichere Auflösung in Leitungswasser
- Kann im Spülbecken oder im Haushaltsablauf entsorgt werden, da das Material für „ok biologisch abbaubares Wasser“ zertifiziert ist
- Gute Haftung auf PLA-basierten Materialien und anderen (Thermo-) Kunststoffen, die in einem ähnlichen Temperaturbereich drucken
- Anwendungen Zuverlässiger Multi-Extrusions-3D-Druck komplexer Strukturen, für die ein wasserlösliches Trägermaterial erforderlich ist 3D-Druckgeometrien mit großen Überhängen oder komplexen Hohlstrukturen PVA-Formen
General printing guidelines *
| Nozzle size: ≥ 0.15mm | Layer height: ≥ 0.1mm | Experience level: Expert |
| Print temp: ± 190 - 210° C * | Fan speed: 0 - 30% | |
| Heat bed: ± 0 - 60° C | Enclosure needed: No |
These ranges in settings should work for most printers, but please do feel free to experiment outside
these ranges if you think it is suitable for your printer. There are a lot of different type of printers, hot-ends,
and printer offset that it is extremely difficult to give an overall one-size-fits-all setting.
*) Do not exceed a printing temperature of 225˚C, because AquaSolve PVA will then crystallize to quickly
and it will no longer flow and/or dissolve in water. Printing with PVA materials does require a certain level of
3D printing expertise as PVA cannot stay too long in the hot secondary/support nozzle and needs to flow and
by that needs expert tweaking to find the optimal “waiting temperature” for the material not to deteriorate/crystalizing
in the hot secondary/support nozzle when not being 3D printed.
Filament length
| ρ: 1.23 g/cc | 50 gr coil | 0.3 Kg spool | |||
| Ø 1.75mm | ± 16.9m | ± 101m | |||
| Ø 2.85mm | ± 6.4m | ± 38m |
PVA compatibility overview *
| |
AquaSolve PVA |
Atlas Support |
Helios Support |
| ABSpro |
- |
- |
+ |
| ABSpro Flame Retardant |
- |
- |
+ |
| ApolloX |
- |
- |
++ |
| CarbonFil |
- |
++ |
- |
| Centaur PP |
No data |
No data |
No data |
| ClearScent ABS |
- |
- |
++ |
| Crystal Flex |
- |
- |
+ |
| EasyCork |
+ |
+/- |
- |
| EasyFil ABS |
- |
- |
++ |
| EasyFil HIPS |
- |
- |
++ |
| EasyFil PLA |
++ |
+ |
- |
| EasyWood |
++ |
+ |
- |
| FlexiFil |
No data |
No data |
No data |
| Galaxy PLA |
++ |
+ |
- |
| HDglass |
- |
++ |
- |
| LimoSolve |
- |
- |
++ |
| MagicFil Thermo PLA |
++ |
+ |
- |
| Matt PLA |
++ |
+ |
- |
| MetalFil |
No data |
No data |
No data |
| Pegasus PP Ultralight |
No data |
No data |
No data |
| Premium ABS |
- |
- |
++ |
| Premium PLA |
++ |
+ |
- |
| Python Flex |
- |
- |
++ |
| ReForm - rPET |
- |
++ |
- |
| ReForm - rPLA |
++ |
+ |
- |
| ReForm - rTitan |
- |
- |
++ |
| Silk Gloss PLA |
++ |
+ |
- |
| StoneFil |
+ |
+/- |
- |
| STYX-12 |
No data |
No data |
No data |
| Thibra3D SKULPT |
No data |
No data |
No data |
| TitanX |
- |
- |
++ |
| Volcano PLA |
+ |
- |
++ |
*) Above PVA compatibility overview is meant to give guidance on which of our PVA based support materials
– AquaSolve PVA, Atlas Support, and Helios Support – is advised as support material in combination with various
Formfutura filaments that can be used as a primary building material.
*) Please do note that the above-shown PVA compatibility overview is purely meant as general guidance and advice
based on our in-house expertise and experience and that it is not to be seen as a fixed principle or rule.
There are numerous factors that determine the best fitting PVA support with primary building materials and it
actually varies per 3D printer. Below overview can, according to our current state of knowledge,
be used as guidance for the vast majority of 3D printers.
General guidance for printing with PVA support materials
Printing with PVA, in general, isn’t plug and play and does require a fair amount of 3D printing expertise
as there isn’t a generic one-size-fits-all setting for dual extrusion printing with PVA materials.
The optimal PVA settings can even vary between the same models of 3D printers.
One of the most common challenges are to establish a good bond between the PVA support
material and the primary building material. Below parameters are of utmost importance to establish good adherence.
- Verify the extrusion distance between the printed object and the PVA support.
- The default setting in most slicer software is often set at a distance of 0.1mm or 0.2mm, which works well for break-away support, but not for PVA support.
- For PVA support materials the extrusion distance must be set to 0.0mm as both materials must really come into contact with each other.
- The printing (nozzle) temperature is extremely important and it is advised to measure the actual temperature of the nozzle and to compare this temperature with the temperature set in the print settings.
- If the actual temperature of the nozzle is for instance 10° C lower than the temperature in the print settings it might very well be that the layer of PVA support material is not flowing optimally into the layer of the primary building material. It is often seen that the actual nozzle temperature varies from the print temperature set in the slicing software.
- Verify if the nozzles of your printer are properly leveled and have exactly the same height so that there is no “height difference” when layering the PVA support material on top of the primary building material.
- In order to verify this it is recommended to 3D print a 5cm x 1cm rod and to print every 1 to 2 layers with the left nozzle and the following 1 to 2 layers with the right nozzle and to repeat this process multiple times. If you notice a non-perfect layering then the nozzles aren’t properly leveled. This process can be done with PLA for instance.
Product export information
| HS Code: 39169090 | Description: Monofilament | Country of origin: the Netherlands |
Compliance *
This filament is compliant to below-listed directives and regulations.
- RoHS directive 2011/65/EC
- REACH directive 1907/2006/EC
our present standard of knowledge and may be amended if new cognitions are available and
applies only for the above-described products.
- Technisches Datenblatt (149.7 KB)
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