Formfutura Aquasolve™ PVA
AquaSolve™ - PVA filament is a cold water soluble 3D printer filament. This feature makes our PVA filament extremely suitable as support material for complex ABS, or PLA prints.
PVA (or PolyVinyl Alcohol) is widely used in traditional industries, such as the textile industry and papermaking industry. PVA is also used in a wide variety of coatings.
The unique characteristic of PVA (totally dissolving in water) makes it a very interesting material for FDM/FFF desktop 3D printing. PVA’s water solubility makes PVA filament particularly suitable as a support material for printing complex ABS, or PLA structures. If your 3D printer has a dual extruder, you can print with ABS/PLA and PVA to build structures which are impossible to make without support material. When your print is done just give it a nice bath in cold/warm water, let the PVA dissolve resulting in a seemingly “impossible” creation made with a FFF/FDM desktop 3D printer. Imagine which complex structures you are now able to print….. Extremely difficult to print models, which were previously only printable with very expensive SLS printers, become available to FFF/FDM 3D printers by making use of a soluble support material like PVA! Think about mechanical applications – such as ball bearings, ball and socket joints, and caged gear mechanisms – which are now available for printing with FFF/FDM 3D printers. Also think about applications, such as being able to make water soluble moulds.
Our AquaSolve™ - PVA filament is a colourless and odourless high quality filament and extrudes around 180°C to 205°C and is suitable with all RepRap-technology based desktop 3D printers, such as MakerBot, Ultimaker, RepRap (Mendel, Huxley, Prusa), UP!, Solidoodle, Leapfrog, and many more….!
AquaSolve™ - PVA printed parts dissolve completely in cold water. However, warm water will speed up the dissolving process. The fastest results can be obtained by dissolving our PVA in continuously heated bath of water.
Our AquaSolve™ does not contain any hazardous, or chemical substances. In fact, all our AquaSolve™ filaments are RoHS certified and REACH compliant.
AquaSolve™ - PVA filament is a compound of PolyVinyl Alcohol (>75%), Aliphatic Polyol (<20%) and Calcium Distearate (<5%) , which comes in 1.75mm and 2.85mm diameter and is conveniently wrapped on a spool containing ±300 grams of filament. Our spool-wrapped PVA filament is packaged in vacuum sealed plastic with a bag of silica gel inside.
|Filament Net Weight:||± 0.3 Kg ± 2%|
|Spool Size (D x h):||200 mm x 55 mm|
|Spool Hub Diameter:||52 mm|
|Packaged weight||0.8 Kg|
Storage of PVA filament
As PVA is extremely susceptible to water, it is of the uttermost importance that you store AquaSolve™ - PVA filament in the best possible way. This would mean that you need to store your PVA filament in indoors at room temperature and off course in dry condition (e.g. in zip lock bag, or closed container with silica inside).
Recommendations for printing with PVA filament
You can use the same print bed temperature as you are using when printing with PLA, or ABS. AquaSolve™ - PVA sticks well to a non-heated print bed, as well as to a heated print bed. This makes our PVA an ideal support material for printing in combination with either ABS, or PLA (or other materials). You can use the print bed temperature settings as you are used to when printing with ABS, or PLA.
Please do keep in mind that the recommendations given with respect to extrusion/print temperatures and heat bed temperatures are general guidelines. Every desktop 3D printer requires slightly different settings for optimal printing results, so you might need to tweak around with your settings a bit in order to obtain the best possible results.
As PVA filament is a relatively new 3D printer filament we would like to receive as many feedback as possible with respect to user experience and optimal printer settings for as many desktop 3D printers as possible. Therefore we would like to ask you to tweak around with your printer settings and please do share your experiences with our fellow 3D printing enthusiast in the ‘REVIEWS’ tab of this page. We will be very grateful for your input!