Formlabs Formlabs Finishing Tools
The Formlabs Finishing Tools is a comprehensive set designed for resin 3D print post-processing, aimed at enhancing surface finishes and reducing costs. It includes over 30 pieces, curated by engineers and validated by customers, to streamline support removal and polishing, ensuring professional-grade results with minimal effort. Ideal for a wide range of applications, this kit speeds up workflows and is an affordable solution for superior finishes on SLA prints.
- Streamlines post-processing, enhancing finishes
- 30+ piece comprehensive kit
- Reduces labor and cost per part
List Price: | $299.00 |
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Price: | $299.00 |
Price: | $... |
Availability: | Only 2 left in stock. |
Order Now: | Ships Today Free U.S. Shipping |
Formlabs Finishing Tools
FINISH IT!
Achieve superior finishes on your resin 3D prints with the Formlabs Finishing Tools kit. This comprehensive set streamlines post-processing from support removal to polishing, enhancing appearance while reducing labor and cost. Transform your prints into professional-grade parts effortlessly.
Key Features of the Formlabs Finishing Tools:
- Comprehensive post-processing kit for resin prints
- Enhance surface finish, smooth planes, and edges
- Elevate overall appearance while driving down cost per part
- Tools curated by engineers and validated by customers
- 30+ pieces in set
COMPLETE THE PROCESS
Unlock superior finishes and streamlined workflows with Formlabs Finishing Tools. Tested across industries, this curated set lowers cost per part by making post-processing faster and more efficient. Ideal for everything from functional assemblies to high-fidelity models, it offers a complete solution for flawlessly finished parts.
- Have the right tool on hand
- Speed up post-processing workflow
- Achieve fine finishes with minimal effort
- Affordable solution for any non-dental SLA customer
Which 3D Printers are Compatible with the Formlabs Finishing Kit?
✔ Form 3L / 3BL
✔ Form 3+ / 3B+
✔ Form 3 / 3B
✔ Form 2
What's Included in the Formlabs Finishing Tools?
1 | × | Ergonomic Pen Sander |
1 | × | Rotary Tool |
1 | × | Rotary Tool Bit Kit
|
1 | × | Flush Cutters |
1 | × | Hobby Knife and Blades |
1 | × | Spray Bottle |
1 | × | Microfiber Cloth |
1 | × | Large Silicone Mat (16" × 24" / 400 × 600mm) |
Questions
When can we expect a matterhackers video about this product and it's capabilities, like the other matterhackers nylon series filaments? Thanks
Do you know the stability of this material in pH 1 sulfuric acid (0.1 M sulfuric acid)?
Is this stronger than nylonx for functional parts?
I have the creality ender3 v3 ke that uses pei type build plates is there any other building plate that will work or is equivalent to glass like pet or smooth pei build plates I can use for it?
Can i get different volume fraction of Kevlar in Nylon filament?
Is this material appropriate for injection molds with a mold material that melts around 200C?
This printed great! 260c and 85c bed. No warp! Sticks to my glass bed with glue stick great! Looking to find a material with low coefficient of friction. Would you be able to tell me what filament you have with the lowest coefficient of friction?
How do any of these nylons fair against polycarbonate? Would additive nylons surpass polycarbonate in their specific aspects of tougness?
What would the estimated maximum operating temperature be? Say to be exposed via convection for ~ 3 hours
Hi, I just ran my first print with this material and I'm having trouble with the layers adhering to each other. Using ender 5 with .4 hardened nozzle, 260 C on nozzle, 100 C on bed, .24 layer height, 40mm speed with cooling fan at 40%. Brim attached to work so well that it de-laminated first and second layers. Bent part to test and layers all separated.
Poo
Is the product MXTJFMYQ compatible with flashforge printer?
Is this material like nylon x with respect to warping?
Clogs nozzles much faster than Nylon X.
Will there be a Zylon varient of this filament?
Hi, Im designing a compliant mechanism, where I need parts to be strong, flexible but has good stress resistance and good fatigue life, due to the part will be bended in different direction continously. Which material is the most suitable? My guess is nylon and nylon K. Does the added kevlar enhance fatigue life and make the part less likely fail due to stress?
What is the density of this material (nylonk)?
what is the heat deflection temp of the material
Would this be a good material to print a timing pulley for an electric skateboard? The high strength, wear resistance and dimensional accuracy are definite pluses, but I'm worried the Kevlar will cause increased wear to the neoprene timing belt. Any idea if this will be a problem?
Is there a datasheet available for this material?
What is the as-printed tensile strength in the xy direction? (And z direction if you have made vertical dogbones to test interlayer adhesion strength)
What is the glass transition temp?
What Color is it? How nice are the prints? Thanks!
Is this bullet-proof?
No. The Kevlar in vests is continuous fiber (woven into fabric) those are tiny chopped fibers. The job of the Kevlar in the vest is to both prevent the slug from penetrating the ceramic when striking the chest plate and prevent the ceramic chest plate from spalling into the wearer’s body. Since the manufacturers of real vests typically use ceramic for the plates, I’m gonna guess that is the optimum material. If Kevlar filled nylon was a good choice it is obviously easily obtained and injection moldable so they would use it. Just because it contains Kevlar does not make it bulletproof.
No.
Well if you mean getting shot with a proper bulletproof plate vs Printing a nylonK plate, i know it’s a crazy idiotic insane stupid idea but ill rather not diy anything that is designed to be bulletproof. That’s just me though but make a shield spartan
Anything will be bulletproof in the right thickness for the caliber, including a phone book. Is it going to be weight-efficient though? No for various reasons.
I mean, sure? But what you have to remember about Kevlar bulletproof vest plates is they've been tested to crazy lengths to be sure that they are combat-ready.
I guess what I'm saying is, be prepared to spend a lot of money making sure your plates will work in the field - probably a lot more than it would be to just buy the plates themselves.
If you REALLY wanna do it, I'd start by looking at the 3D printed bulletproof Stormtrooper video on YouTube. And talk to some ballistics experts.