Have you ever had a project that didn’t turn out as expected? Maybe the support was too weak, and your print started to warp. Or maybe it just wasn’t strong enough to hold its shape. We’ve all been there before and it can be frustrating! One of the best ways to fix this issue is by using support material for PLA filament, such as PVA filament.
If you are in a rush check out the best PVA filaments that you should possess to take your project to new heights -:
- Overall Best -: SainSmart 1.75mm PVA Dissolvable 3D Printers Filament
- Best Budget -: eSUN 1.75mm PVA Filament
- Best For DIYer’s -: Polymaker PVA Filament 1.75mm
- Best For Small Businesses -: AnKun Degradable PVA Printer Filament
In the 3D printing world, there is a lot of buzz about PVA filament. There are many benefits to using this type of material for your project and it’s best to learn more before you commit to any other types of filaments. So let’s discuss some important things you should know about PVA filament when you’re looking for the best support material for PLA filament. So let’s discuss some important things you should know about PVA filament when you’re looking for the best support material for PLA filament.
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Best PVA Filament Brands
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How To Choose PVA Filaments?
PVA filaments are a great way to make your 3D prints more durable. In order to find the perfect one for you, there are many factors that come into play and we’ll be covering them all!
PVA filament is an environment-friendly material which makes it popular among people who care about sustainability. It also has high levels of strength meaning it can last longer than most other materials used in FDM printing like PLA or ABS. However, PVA may not work with certain software environments so before purchasing some from us read up on our list of features below:
The first thing you should check is the strength of the PVA Filament. You need a filament that has a very strong chemical resistance. That way it will not break down when in contact with your 3D printer’s material, and also avoid deformation. Strong filaments can be used for printing objects with narrow cross-sections or even when printing on different surfaces. It’s also resistant to high, low, and medium temperature range around 225-250°C (437-482°F).
You should look for filaments that are flexible so you can print objects with a wide range of angles without breaking the filament.
Durability means how long the filament can work before it breaks. Fashioning a durable 3D printing material is not so simple since the weight of the objects that need to be printed will add stress to the peeling process. The longer you use filament without breaking it, it means it can offer you more prints.
However, the nature of 3D printing is that you have to replace your filament every now and then because after some time the surface of each layer will not stick together and this will cause the printout to be blurry or even unreadable. This is why we need different grades of PVA filaments with longer working life. But of course, there is a trade-off in this regard since the more durable it is, the higher the chances that it can break due to its weight and thickness.
Print Temperature Range
The print temperature affects how well your 3D printed objects hold their shape. You must make sure that your printer can handle temperatures that are higher or lower than the normal temperature. It is best to have a PVA filament with a print temperature range between 120-230°C (248-446°F).
For 3D printing, you will need 2 liquids -: The first is the PVA glue and water mixture which acts as a binder. You will need this liquid to hold your object together while you print it. The other liquid is a dissolvable material that will be absorbed by the 3D printing filament. Biodegradable liquids are ideal for this purpose as they decompose naturally and do not harm the environment. Look for filaments that are soluble in water and have biodegradable properties.
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In-Depth PVA Filament Reviews
Best Soluble, Dissolvable PVA Support Materials For 3D Printers
Fused Materials PVA 3D Printer Filament
- Fused Materials PVA is compatible with a variety of materials but it works best with PLA.
- This filament is easy to use and requires no special tools or equipment. Simply load the spool into your printer and you’re ready to print!
- Fused Materials pride themselves on quality and consistency, which is why our product comes in a vacuum sealed bag with desiccant. This keeps your filament dry for consistent printing results every time.
- This filament has been tested by 3D Printing experts around the world and we are confident that you will be satisfied. Each spool is vacuum sealed with desiccant to ensure optimal moisture content upon delivery.
- Fused Materials PVA has been tested to be stronger than other similar products on the market today!
SainSmart 1.75mm PVA Dissolvable 3D Printers Filament
- This filament is compatible with most 3D printers on the market. Please check your printer’s manual for details.
- No kinks or breaks. This filament will not jam up in your extruder! Works great with any spool holder for easy loading.
- The quality of the filament is of great quality, and no kinks or breaks. Best choice for perfect printing!
- This PVA filaments are consistent in diameter (d dimensional accuracy +/- 0.05mm) and roundness (roundness tolerance +/- 0.05mm). They are also produced under strict quality control standards to ensure that you get the best product every time!
eSUN 1.75mm PVA Filament
- eSUN PVA Filament is compatible with most 3D printers on the market.
- eSUN PVA Filament can be used to support PLA, ABS and other materials. It’s easy to use and clean up!
- eSUN PVA Filament is made of high quality material that ensures a consistent diameter, smooth feeding and stable printing results. It also guarantees excellent adhesion between layers for your 3D printed objects.
- The filament diameter is kept stable during production, so you can expect reliable diameter consistency from this product. This feature helps ensure that your 3D prints come out looking great! We guarantee it!
- This PVA filament has good tensile strength and elongation at break which means that your 3D printed objects will have an increased durability compared to those printed with other filaments.
AnKun Degradable PVA Printer Filament
- AnKun PVA filament is compatible with all 1.75mm 3D printers and extruders.
- This filament is easy to use, just like PLA/ABS filaments. Just load the filament into your 3D printer, heat up the nozzle, and start printing!
- Manufactured with high-quality material that ensures that you will get consistent prints every time! We guarantee that you will love this product!
- AnKun PVA filament has a diameter tolerance of +/- 0.05 mm, which means that it can be used on most 1.75mm and 3mm nozzles without any clogs or jams. The material is also easy to use, just like PLA and ABS filaments.
- t’s shiny and has a smooth surface finish after post-processing, which makes your products look more professional and attractive than ever before!
- With even tight winding, clog-free and bubble-free, always maintain a smooth feeding during printing, effectively reduce unexpected printing interruptions. Enjoy design and bring to life your inventions!
Polymaker PVA Filament 1.75mm
- Polymaker PVA is a water-soluble filament that can be used with any standard PLA 3D printer including MakerBot Replicator 2X, Ultimaker Original+, Lulzbot TAZ 4 and 5, Printrbot Simple Metal and Simple XL, Solidoodle Press, Airwolf AW3D HD, and many more.
- Polymaker PVA has the same diameter as most other PLA filaments on the market (1.75mm). It’s easy to use: just load it into your filament spooler and print! No need for special hardware or extrusion head upgrades.
- This filament is easy to use because it does not require a heated bed or any special settings. The only thing you need to do is make sure that the palette settings in Canvas, Chroma, and P2PP are set at 6-2-8. If you leave these settings at 0-0-0 then the prints will fail.
- Prints made with this filament have a very high-quality feel to them. They are smooth and strong enough for tugging on without breaking apart. It also has an attractive matte finish that makes it look like real wood or metal when printed.
- This PVA filament has consistent diameter measurements of 1mm throughout its entire spool length (1kg). It also has a very low amount of warping compared to other filaments while printing which gives it an edge over competitors.
Monoprice Premium PVA 3D Printer Filament
- This PVA filament is compatible with any FDM 3D printer that uses 1.75mm PLA filament.
- Simply load the PVA into your printer’s extruder and print as you would normally. No special settings are required, but a heated bed is recommended for best results.
- This dissolvable PVA filament has been tested to ensure it meets our strict quality standards. We guarantee consistent diameter tolerances and smooth feeding from the spool into your printer’s hot end.
- This PVA dissolvable filament is made in an ISO-certified factory using high-quality materials and processes, ensuring consistency between each spool of material we produce! You’ll never have to worry about inconsistent performance or failed prints due to inferior materials!
- The strength of this material was tested to ensure it meets our standards for both PLA and ABS filaments. It will not fail under normal use, even when printed at full speed!
All About PVA Filament
What Is PVA Filament?
Polyvinyl Alcohol or PVA for short is a synthetic polymer. It can be shortened to PVOH and it’s most commonly known as the material that you use in 3D printing because of its water solubility properties which make it an excellent support material when used alongside PLA filament.
The process begins with vinyl acetate being polymerized so that polyvinyl acetate can form before then undergoing hydrolysis to create the PVA filament required by 3D printers like yours! You now have everything needed for creating your own complex designs without any hassle thanks to this reliable support fabric!
Polyvinyl alcohol is a polymer that can be used as a support filament in 3D printing. PVA is a water-soluble material that dissolves in boiling hot water and other solvents. PVA filament can be used with any type of printer as long as the printing platform has an open design to allow for airflow on all sides of the object being printed. PVA filament is ideal for printing support structures and is widely used because it can dissolve in water and other solvents. It should be stored sealed from the air to prevent moisture absorption that would cause PVA filaments to degrade over time.
Advantages of Using PVA
Advances in technology have led to the development of new filaments such as PVA that provide users with unique properties.
The material will dissolve easily which can then be washed off without leaving a residue or any marks that would ruin the surface appearance.
PVA has a low shrinkage rate compared to ABS which makes the material more durable
Creates an excellent surface finish when printed, as it is smooth, also creates less stress on the objects being printed due to its low melting point of about 160 degrees Celsius
PVA filament is that a filament can be stored for a long time at room temperature.
It’s easier to work with compared to ABS because it doesn’t have any noticeable smell during printing
PVA Support Material limitations
PVA 3D filament is a unique material, as it dissolves in water and can be used for many applications. However, PVA Filament has its disadvantages because when the print becomes exposed to weather or moist environments then your prints are at risk of being dissolved. It’s quite challenging not exposing it but once you do – there will be bubbles on your prints that affect their quality so take care! Make sure also keep PVAs away from high temperatures and heated elements since they have low melting points, which is why you have to be careful about setting the right temperature because applying force or increasing the temperature will not be able to clear up the nozzle.
PVA (Polyvinyl alcohol) is a water-based adhesive with excellent properties for 3D printing. It is known as the “universal bonding agent” and is nontoxic, biodegradable, and very environmentally friendly. PVA filament can be used in 3d printing projects where there is a need to stick or bond parts together. It has been used in manufacturing fake teeth, prosthetics, and in the building industry.
PVA filament adheres very well to a wide range of materials like ABS, PLA, wood plastic composite, etc. It is important to be aware that PVA does not stick to all materials. Many plastics and resins are not compatible with PVA therefore check the compatibility first before using PVA filament.
PVA can be used as a general binding agent and this is done by dissolving it in water. First, the filament is heated to 100 degrees Celsius (212F) then cooled so that it holds the water well without dripping. Next, the PVA solution can be applied to whatever you want to stick together and allow to air dry. The amount of PVA solution will depend on the size of the project done.
PVA filament can also be used as a support material for 3D printed objects especially those with overhangs. Because PVA dissolves in water, it is very easy to remove after printing using a simple soak in hot water. The object itself will not dissolve and can be saved for later use or printing in its entirety.
PVA is a biodegradable material which makes it an excellent choice for projects that involve recycling to make new products such as fake teeth, prosthetics, etc… When made into a paste, PVA can also be used to support the growth of cells and tissues.
Can PVA Be Used With PLA And ABS?
Yes, but PVA works better with PLA than ABS. One thing to keep in mind is that sometimes users have trouble getting PVA stuck to PLA prints. This usually has something do with printer settings and it’s important you calibrate your slicer properly before printing a new material type for the first time as this will help ensure good adhesion between layers of filament being printed on top of one another.
Is PVA Safe?
PVA is a surprisingly safe material, especially for children. PVA does not have any dangerous or sharp edges like other materials and it will dissolve when water hits its surface to turn into an innocuous adhesive that kids can use without hurting themselves. The only thing users should be wary of when using PVA is the potential flammability, but this risk doesn’t differ much from paper’s vulnerability to fire!
Never leave PVA in the hotend. After prolonged exposure to heat, it will undergo pyrolysis and create a gooey burnt residue that’s hard to clean up. Remove all of your filament from the printer after use or else risk unusable prints!
Why Is PVA So Expensive?
Designers and artists often rely on this material to produce their art, but PVA is expensive due the high demand. HIPS can dissolve in d-limonene, which isn’t cheap; so that’s why for many printers it doesn’t make sense to use HIPS as support. However, because of how much cheaper PVA is than other materials like HIPS or ABS (acrylonitrile butadiene styrene), most people still choose it over these others when they need a support system in order to create amazing pieces of artwork.
How To Use PVA Filament?
PVA Filament Printer Settings
PVA filament can be the most difficult to print with, due to its tendency to absorb moisture and become gummy. The key is printing at a lower temperature than your typical PLA or ABS, and making sure that you have good airflow inside your 3D printer for good adhesion between layers.
50-55 degrees Celsius works best for PVA (ABS/PLA 3D printing temperature is normally between 180 and 220 degrees) To print with PVA, you should start at a very low temperature of 50 degrees Celsius. If your machine allows, you can crank it up to 55 degrees quickly in order to avoid warping or drooping. If you find that the plastic begins oozing out of your PVA nozzle, quickly drop the temp back down to 50.
Possible lower layer height for PVA filament is 0.15mm or thereabouts Artifacts will show up if you print too high with PVA due to its gummy nature. 0.2mm or higher of a layer height will cause the PVA to ooze out of the nozzle uncontrollably, which means that it might begin building up in the heater block and eventually clog up your hot-end.
Printing at this temperature is also unreliable due to warping issues, so any 3D printed objects will be difficult to remove from the build plate. It is best to keep your layer height below 0.15mm for PVA filament -if it warps on you, try some different print settings and/or tweak your printer’s Z-axis offset value (always set with the fan off first).
Even if your bed is heated to 120 degrees or more, the PVA will still want to ooze out of the nozzle and adhere to itself. For best results, you must use a series of brim layers when printing PVA and keep surface tension in mind during each layer. Since PVA absorbs moisture from the air, it’s important to keep the humidity in your home under control and avoid spraying the PVA filament with water.
Tips for Printing With PVA Filament
When you are ready to print, turn on your heated bed and allow it to reach 120 degrees Celsius or thereabouts. Then slowly increase your hotend temperature until you reach 50 degrees Celsius (100 degrees Celsius is your upper limit if you want to use an iron).
Allow the hot end to reach temperature and then begin printing.
Every few layers, pause the print in order to turn on your heated bed again and raise its temp up a bit more until you get it back up to 120 degrees (or higher).
Repeat this cycle throughout the duration of your print.
Try to keep good airflow in the printer through the use of your printer’s fan while printing as well, and consider not using a heated bed for PVA filament when possible.
How To Dissolve The PVA Filament Supports
There are a few tips that can help you dissolve the print from PVA filament. First, submerge it in water and wait just twenty minutes for some of the material to dissolve at room temperature. If you want faster results then try adding warm water too. Another trick is to break up as much support before dipping into liquid so your hands don’t get wet when handling delicate prints later on. A final tip: be careful not to damage smaller parts while breaking off larger pieces!
How To Dry Your PVA Filament Before Using?
The same with nylon, PVA filament is hygroscopic – meaning it easily absorbs water from the air. When you open your roll of PVA filaments, keep the desiccant that came along so you can use it when storing in a sealed container. If not stored properly and subject to moisture as described previously- opening your printed materials will hiss and pop while printing.”
But don’t worry about it! You can still use this material if follow these directions: First put them in an oven for 3 hours or until they are done (make sure its completely out before sealing up), then store them carefully afterward”
3D Filament Storage Tips for PVA
You need to keep your PVA filaments stored inside an airtight container. Place silica in it so that they remain dry, store the container at room temperature and make sure that you don’t let them get wet either! If you do this then your filament will last much longer for many more prints – drying is key!
Hips vs PVA: What is the Difference Between Them?
Polystyrene is a hard, brittle material that breaks easily. If you want to use something less breakable and more durable for your projects, then hips will be the better option! Unlike regular polystyrene materials which are usually made of styrofoam with water-based glue coating on top or other plastics like PVCs, this particular type of plastic has superior resilience and durability – not to mention it’s waterproof. While PVA filaments may cost slightly higher than cheap aesthetics such as Styropor (which also doesn’t last long), they’re worth every penny due to their longevity in comparison! Plus hip products come in various colours so no two pieces can look alike: just try them out today at any craft store near you!”
How can I speed up the dissolution of PVA?
If you want to get rid of the PVA that’s left over from your 3D printer, all it takes is a few minutes and warm water. You can use a sonic bath cleaner or pliers if needed!
What is the alternative to PVA filament?
There are two options, which both have their advantages. The hips material will be less likely to break but it also has a lower impact resistance than ABS. If you need something that doesn’t break easily or is more durable then the hips option would work best for your needs. On the other hand if you want something with high-impact resistance and can withstand heavier weights without breaking then ABS may better suit your desires!
When you buy PLA, ABS or any other 3D printing filament, make sure to get the best quality. The PVA material is not only a great choice for many applications but it also has certain properties that can help your print come out with better results than others. Here are some tips and tricks when using PVA in your 3D printer and we hope they will serve as excellent guidelines for those who want to explore this very versatile material! Now go ahead and choose from our list of recommended suppliers so you don’t have to waste time searching around on forums trying to figure things out yourself!