Formlabs® Form 3+

Formlabs-2022_Form3+BP2

Formlabs®

Form 3+

Functional, high-quality 3D printing on your desktop.

The Formlabs Form 3+ is a desktop SLA 3D printer powered by Low Force Stereolithography (LFS) technology and engineered to get exceptional print quality with hassle-free post-processing. Thanks to its custom-designed Light Processing Unit (LPU), a compact set of lenses and mirrors, Form 3+ can deliver flawless and fast prints every time.

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Simple and Affordable
High-Quality 3D Printing 

The Formlabs Form 3+ is a powerful and versatile desktop Stereolithography (SLA) 3D printer well-suited for a wide range of professional and industrial applications. Its high resolution and accuracy, easy-to-use interface, safety, reliability, and end-to-end ecosystem make it an ideal choice for those looking to up their 3D printing game.

Features

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Part Quality

Exceptional part quality with extraordinary surface finish
25 µm XY Resolution
85 µm Laser Spot Size

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LFS Technology

Low Force Stereolithography for crisp, clean features of the printed parts

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Increased Laser Power

250 nW Laser power for up to 40% faster printing

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Layer Thickness

25 - 300 µm

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PreForm Software

Intuitive software with lots of built-in features

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Build Platform 2

A unique build plate with quick-release technology

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Remote 3D Printing

Integrated cloud-based remote print technology

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All-in-one Ecosystem

A streamlined 3D printing workflow with post-processing solutions, Wash & Cure.

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Functional Materials

A library of 30+ functional resins with a cross-compatible cartridge system.

Over 100,000,000 Parts Printed with Formlabs Technology

Request a Sample

Form 3+ Workflow

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Powered by Low Force Stereolithography (LFS)™

Discover the benefits of the SLA 3D printing process including exceptional print quality and long-term reliability

Explore LFS Technology

Form 3+
Advantages & Benefits

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Fast Production

With an easy, end-to-end workflow of Form 3+, you can rapidly go from design to finished parts.

250 mW Laser Power | 25 – 300 µm Layer Thickness

 

Rapid 3D printing speeds

  • An updated high-intensity laser and precisely-tuned settings produce rapid print speeds for every material.

Easy post-processing

  • Save post-processing time with enhanced light touch support structures designed to detach from parts in seconds time.

An end-to-end ecosystem

  • Made for Formlabs automated post-processing systems make 3D printing simple for anyone

 

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Reliable, High-Quality Parts

Form 3+ refines Formlabs’ patented LFS technology to consistently deliver presentation-ready parts with unbelievable surface finish.

250 μm XY Resolution | 85 µm Laser Spot Size

 

Crisp, Clean, Accurate Features

  • LFS technology, the next generation of stereolithography (SLA) 3D printing, accurately resolves fine features by delivering a clean, uniform laser spot across the entire print surface.

Production-Like Surface Finish

  • A flexible resin tank and refinements to the Light Processing Unit (LPU) create near-perfect alignment between printed layers, giving parts a production-like finish.

Adaptive Layer Technology

  • Automatically analyze part geometry and assign layer heights to maximize print speeds while preserving fine detail with Formlabs’ Adaptive Layer Thickness feature.

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Utmost Efficiency 

Spend more time creating and less time monitoring your printer, thanks to the thoughtfully engineered features of Form 3+.

 

Print From Anywhere

  • Prepare your printer before you leave, then start jobs from anywhere with our cloud-based Remote Print technology.

Minimal Printer Interactions

  • No specialized technicians are required. Get started right away and let the printer do the work.

Hassle-Free Materials Management

  • Switch between a wide range of functional materials in seconds with our swappable resin cartridge and tank system. Form 3+ dispenses resin automatically as parts print.

 

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Part Gallery

Formlabs_bike_yoke_draft-resin

Bike Yoke

Material: Formlabs® Draft Resin

Specs
  • Print cost ($CAD):  12.5
  • Print time: 4 hours
  • 3D Printer: Form 3+
Application
  • Rapid Prototyping
Technology/Process
  • Stereolithography (SLA)

Formlabs_Durable-Resin_razor_handles

Razor Handles

Material: Formlabs® Durable Resin

Specs
  • Print cost ($CAD): 21
  • Print time: 13.25 hours
  • 3D Printer: Form 3+
Application
  • Rapid Prototyping
Technology/Process
  • Stereolithography (SLA)

Formlabs_Rigid-4000_brackets

Brackets

Material: Formlabs® Rigid 4000

Specs
  • Print cost ($CAD): 46
  • Print time: 8.5 hours
  • 3D Printer; Form 3+
Application
  • End-Use Parts
Technology/Process
  • Stereolithography (SLA)

Proto3000_Formlabs_Rigid-10K_Injection-mold

Injection Mold

Material: Formlabs® Rigid 10K

Specs
  • Print cost $(CAD): 43
  • Print time: 4 hours
  • 3D Printer: Form 3+
Application
  • Rapid Tooling
Technology/Process
  • Stereolithography (SLA)

Formlabs_High-tem-resin_Thermoforming-Mold

Thermoforming Mold

Material: Formlabs® High-temperature Resin

Specs
  • Print cost ($CAD): 56
  • Print time: 17.5 hours
  • 3D Printer: Form 3+
Application
  • Rapid Tooling
Technology/Process
  • Stereolithography (SLA)

Formlabs_Tough-2000_Drill-jig

Drill Jig

Material: Formlabs® Tough 2000

Specs
  • Print cost (CAD$): 10
  • Print time: 5 hours
  • 3D Printer: Form 3+
Application
  • Manufacturing Aids
Technology/Process
  • Stereolithography (SLA)

Formlabs_Clear-resin_chess_rook

Chess Rook

Material: Formlabs® Clear Resin

Specs
  • Print cost (CAD$): 3
  • Print time: 2 hours
  • 3D Printer: Form 3+
Application
  • Model making
Technology/Process
  • Stereolithography (SLA)

Materials

Clear-Formlabs-Healthcare

Clear

Material: Formlabs® Clear Resin

Clear Resin polishes to near optical transparency, ideal for showcasing internal features. 3D-printed parts have a smooth surface finish and no post-curing is necessary.

Specs
  • Ultimate Tensile Strength:
    • Green*: 38 MPa
    • Post-Cured**: 65 MPa
  • Tensile Modulus:
    • Green*: 1.6 GPa
    • Post-Cured**: 2.8 GPa
  • Elongation at Failure:
    • Green*: 12%
    • Post-Cured**: 6.2%
  • Heat Deflection Temperature @ 264psi:
    • Green*: 42.7ºC
    • Post-Cured**: 58.4ºC

*Data and specs were obtained from green parts printed using Form 2 SLA printer, 100 microns, clear settings, without additional treatments.

**Data was obtained from parts printed using Form 2, 100 μm, clear settings and post-cured with 1.25 mW/cm² of 405 nm LED light for 60 minutes at 60°C.

Application
  • High-Temperature Rapid Prototyping
Technology/Process
  • Stereolithography (SLA)

Colour-kit-materials-Formlabs

Colour Base | Kit

Material: Formlabs® Colour Base

Color Kit enables 3D printing in various colours without the manual work of finishing and painting. It is the first integrated colour-mixing solution for resin 3D printers.

Specs
  • Color Kit contains a Color Base cartridge and all five Color Pigments.
  • Mix and print matte, opaque parts in a range of colours
  • Field test product concepts with custom colours

Material Properties

  • Ultimate Tensile Strength:
    • Green*: 38 MPa
    • Post-Cured**: 65 MPa
  • Tensile Modulus:
    • Green*: 1.6 GPa
    • Post-Cured**: 2.8 GPa
  • Elongation at Failure:
    • Green* 12%
    • Post-Cured**: 6%
  • Heat Deflection Temperature @ 264 psi:
    • Green*: 42.7°C
    • Post-Cured**: 58.4ºC

*Data and specs were obtained from green parts printed using Form 2 SLA printer, 100 microns, Clear settings, without additional treatments.
**Data was obtained from parts printed using Form 2, 100 μm, Clear settings and post-cured with 1.25 mW/cm² of 405 nm LED light for 60 minutes at 60°C.

Application
  • Rapid Prototypes in custom colours
  • Medical Models
  • Art & Design
Technology/Process
  • Stereolithography (SLA)

White-resin-3D-printed-sample-Formlabs

White

Material: Formlabs® White Resin

White Resin captures smooth surfaces and details, making it great for presentation-ready pieces or as a base for painted prints. It is part of Formlabs’ library of Standard Resins.

Specs
  • Ultimate Tensile Strength:
    • Green*: 38 MPa
    • Post-Cured**: 65 MPa
  • Tensile Modulus:
    • Green*: 1.6 GPa
    • Post-Cured**: 2.8 GPa
  • Elongation at Failure:
    • Green*: 12%
    • Post-Cured**: 6.2%
  • Heat Deflection Temperature @ 264psi:
    • Green*: 42.7ºC
    • Post-Cured**: 58.4ºC
  • Matt & Smooth surface finish
  • Opaque appearance

*Data and specs were obtained from green parts printed using Form 2 SLA printer, 100 microns, clear settings, without additional treatments.

**Data was obtained from parts printed using Form 2, 100 μm, clear settings and post-cured with 1.25 mW/cm² of 405 nm LED light for 60 minutes at 60°C.

Application
  • For parts that will eventually be painted or undergo other finishing processes.
Technology/Process
  • Stereolithography (SLA)

Draft-resin-sample-Formlabs

Draft

Material: Formlabs® Draft Resin

Draft resin prints up to x4 times faster than any other standard material. Parts 3D printed with Draft exhibit a smooth grey finish and high accuracy.

Specs
  • Print large parts or batches of smaller parts fas
  • Slightly more visible layer lines
  • No post-curing necessary

Material Properties

  • Ultimate Tensile Strength:
    • Green*: 24 MPa
    • Post-Cured: 36 MPa
  • Tensile Modulus:
    • Green*: 0.8 GPa
    • Post-Cured at Room Temperature**: 1.7 GPa
  • Elongation at Failure:
    • Green*: 14%
    • Post-Cured at Room Temperature**: 5%
  • Heat Deflection Temperature @ 1.8 MPa:
    • Green*: 37ºC
    • Post-Cured at Room Temperature**: 43ºC

*Data was obtained from green parts, printed using Form 3, 200 micron, Draft v2 Resin settings, washed in Form Wash and air dried without post-cure.

**Data was obtained from parts printed using Form 3, 200 micron, Draft v2 Resin settings and post-cured with a Form Cure at Room Temperature for 5 minutes.

Application
  • Prototyping and rapid iterations
Technology/Process
  • Stereolithography (SLA)

Black-resin-Formlabs

Black

Material: Formlabs® Black Resin

Black Resin is formulated for models with delicate features and intricate details. It is ideal for general-purpose prototyping and design.

Specs
  • Ultimate Tensile Strength:
    • Green*: 38 MPa
    • Post-Cured**: 65 MPa
  • Tensile Modulus:
    • Green*: 1.6 GPa
    • Post-Cured**: 2.8 GPa
  • Elongation at Failure:
    • Green*: 12%
    • Post-Cured**: 6.2%
  • Heat Deflection Temperature @ 264psi:
    • Green*: 42.7ºC
    • Post-Cured**: 58.4ºC

*Data and specs were obtained from green parts printed using Form 2 SLA printer, 100 microns, clear settings, without additional treatments.

**Data was obtained from parts printed using Form 2, 100 μm, clear settings and post-cured with 1.25 mW/cm² of 405 nm LED light for 60 minutes at 60°C.

Application
  • High-Resolution Rapid Prototyping
Technology/Process
  • Stereolithography (SLA)

Formlabs-Durable-resin

Durable

Material: Formlabs® Durable Resin

Durable Resin is the most pliable, impact-resistant, and lubricious material from Formlabs® family of tough and durable materials.

Specs
  • Ultimate Tensile Strength:
    • Green: 13 MPa
    • Post-Cured: 28 MPa
  • Tensile Modulus:
    • Green: 0.24 GPa
    • Post-Cured: 1.0 GPa
  • Elongation at Failure:
    • Green: 75%
    • Post-Cured: 55%
  • Heat Deflection Temperature @ 0.45 MPa:
    • Green: < 30°C
    • Post-Cured: 41ºC

Green: Data was obtained from green parts, printed using Form 2, 100 μm, durable settings, without additional treatments.

Post-Cured: Data was obtained from parts printed using Form 2, 100 μm, durable settings and post-cured with a Form Cure for 120 minutes at 60 °C.

Application

. It is ideal for squeezable parts and low-friction assemblies.

  • Pliable Prototyping
  • Impact resistant jigs
  • Low-friction and non-degrading surfaces
  • Polyethylene-like strength and stiffness
Technology/Process
  • Stereolithography (SLA)

Grey-resin-3D-printed-sample-Formlabs

Grey

Material: Formlabs® Grey

Grey resin is a material for high-resolution models and rapid prototyping. It is an engineered resin that captures the finest features of a model and provides robust parts with a smooth surface finish.

Specs
  • Ultimate Tensile Strength:
    • Green*: 38 MPa
    • Post-Cured**: 65 MPa
  • Tensile Modulus:
    • Green*: 1.6 GPa
    • Post-Cured**: 2.8 GPa
  • Elongation at Failure:
    • Green* 12%
    • Post-Cured**: 6%
  • Heat Deflection Temperature @ 0.45 MPa:
    • Green*: 50°C
    • Post-Cured**: 73ºC

*Data and specs were obtained from green parts printed using Form 2 SLA printer, 100 microns, Clear settings, without additional treatments.
**Data was obtained from parts printed using Form 2, 100 μm, Clear settings and post-cured with 1.25 mW/cm² of 405 nm LED light for 60 minutes at 60°C.

Application
  • Rapid Prototyping
  • Functional Testing
  • Product Development
Technology/Process
  • Stereolithography (SLA)

Grey-PRO-Formlabs

Grey PRO

Material: Formlabs® Grey PRO

Grey Pro Resin offers high precision, moderate elongation, and low creep. This material is great for concept modelling and functional prototyping, especially for parts that will be handled repeatedly.

Specs
  • Ultimate Tensile Strength:
    • Green*: 35 MPa
    • Post-Cured**: 61 MPa
  • Tensile Modulus:
    • Green*: 1.4 GPa
    • Post-Cured**: 2.6 GPa
  • Elongation at Failure:
    • Green*: 32.5%
    • Post-Cured**: 13%
  • Heat Deflection Temperature @ 0.45 MPa:
    • Green*: not tested
    • Post-Cured**: 77.5ºC

*Data and specs were obtained from green parts printed using Form 2 SLA printer, 100 microns, Grey PRO settings, without additional treatments.
**Data was obtained from parts printed using Form 2, 100 μm, Grey PRO settings and post-cured with a Form Cure for 120 minutes at 80°C.

Application
  • Form and fit testing
  • Injection molded product prototypes
  • Mold masters for plastics, silicones, and more
  • Jigs and fixtures for manufacturing
Technology/Process
  • Stereolithography (SLA)

High-temperature-Formlabs

High Temp. Resin

Material: Formlabs® High-Temp Resin

High-Temperature Resin has a heat deflection temp (HDT) of 238 °C @ 0.45 MPa, the highest among Formlabs resins. You can print detailed, precise prototypes with high thermal stability.

Specs
  • Ultimate Tensile Strength:
    • Green*: 21 MPa
    • Post-Cured**: 58 MPa
  • Tensile Modulus:
    • Green*: 0.57 GPa
    • Post-Cured**: 2.8 GPa
  • Elongation at Failure:
    • Green*: 14%
    • Post-Cured**: 3.3%
  • Heat Deflection Temperature @ 1.8 MPa:
    • Green*: 44ºC
    • Post-Cured**: 78ºC

*Data and specs were obtained from green parts printed using Form 2 SLA printer, 100 microns, High Temp settings, washed for 5 minutes in Form Wash and air-dried without post-cure.
**Data was obtained from parts printed using Form 2, 100 μm, High Temp settings and post-cured with Form Cure at 60°C for 60 minutes.

For peak material properties such as HDT of 238 °C @ 0.45 MPa, additional thermal cure can be done: post-cured with Form Cure at 80°C for 120 minutes plus another thermal cure in a lab oven at 160°C for 180 minutes.

Application
  • Hot air, gas, and fluid flow
  • Heat-resistant mounts, housings, and fixtures
  • Molds and inserts
Technology/Process
  • Stereolithography (SLA)

Elastic-50A-resin-Formlabs

Elastic 50A

Material: Formlabs® Elastic 50A

Elastic 50A is a 50A Shore durometer material for prototyping parts usually produced with silicone that will need to bend, stretch or compress.

Specs
  • Ultimate Tensile Strength:
    • Green: 1.61 MPa
    • Post-Cured*: 3.23 MPa
  • Stress at 50% Elongation:
    • Green: 0.92 MPa
    • Post-Cured*: 0.94 MPa
  • Stress at 100% Elongation:
    • Green: 1.54 MPa
    • Post-Cured*: 1.59 MPa
  • Elongation at Failure**:
    • Green: 100%
    • Post-Cured*: 160%
  • Shore Hardness:
    • Green: 40A
    • Post-Cured*: 50A

*Data was obtained from parts printed using Form 2, 100 µm, Elastic 50A settings, washed in Form Wash for 20 minutes and post-cured with Form Cure at 60 ˚C for 20 minutes.
**Tensile testing was performed after 3+ hours at 23ºC, using a Die C dumbbell and 20 in/min crosshead speed.

Application

It is ideal for parts that will bend, stretch, compress and hold up to repeated cycles without tearing and spring back quickly to their initial shape.

  • Wearables and consumer goods prototyping
  • Medical models and devices
  • Compliant features for robotics
  • Special effects props and models
Technology/Process
  • Stereolithography (SLA)

Flexible-resin-3D-printed-bottles-Formlabs

Flexible 80A

Material: Formlabs® Flexible 80A

This resin is one of the most soft-touch materials from Formlabs® with an 80A Shore durometer to simulate the flexibility of rubber or TPU.

Specs
  • Ultimate Tensile Strength*:
    • Green: 3.7 MPa
    • Post-Cured**: 8.9 MPa
  • Stress at 50% Elongation:
    • Green: 1.5 MPa
    • Post-Cured**: 3.1 MPa
  • Stress at 100% Elongation:
    • Green: 3.5 MPa
    • Post-Cured**: 6.3 MPa
  • Elongation at Failure:
    • Green: 100%
    • Post-Cured**: 120%
  • Shore Hardness:
    • Green: 70A
    • Post-Cured**: 80A

*Tensile testing was performed after 3+ hours at 23ºC, using a Die C dumbbell and 20 in/min crosshead speed.

**Data was obtained from parts printed using Form 3 SLA printer, 100 microns, Flexible 80A settings, washed in Form Wash for 10 minutes, and post-cured with Form Cure at 60ºC for 10 minutes.

Application
  • Handles, grips, and overmolds
  • Seals, gaskets, and masks
  • Cushioning, damping, and shock absorption
Technology/Process
  • Low Force Stereolithography

Rigid-resin-sample-Formlabs

PU Rigid 1000

Material: Formlabs' Rigid 1000 Polyurethane

PU Rigid 1000 Resin is a semi-rigid and tough polyurethane material, ready to handle high impacts and harsh environments repeatedly.

Specs
  • Ultimate Tensile Strength:
    • Post-Cured*: 35 ± 3.5 MPa
  • Flexural Strength:
    • Post-Cured*: 32 ± 1.6 GPa
  • Flexural Modulus:
    • Post-Cured*: 0.75 ± 0.03 GPa
  • Elongation at Break:
    • Post-Cured*: 80 ± 8 %
  • Notched Impact:
    • Post-Cured*: 170 J/m
  • Heat Deflection Temperature @ 1.8 MPa:
    • Post-Cured*: 64ºC
  • Hardness:
    • Shore D, 74

*Data for post-cured samples were measured on Type IV tensile bars printed on a Form 2 printer with 100 µm PU Rigid 1000 Resin settings, washed in a Form Wash for 2 minutes in ≥99% PGDA, and post-cured.

Application
  • Protective casings, housings, and enclosures
  • Static jigs and fixtures undergoing high stress
  • Sturdy consumer products
Technology/Process
  • Stereolithography (SLA)

Rigid-resin-3D-printed-part-Formlabs

PU Rigid 650

Material: Formlabs' Rigid 650 Polyurethane

PU Rigid 650 Resin is a tough and pliable polyurethane material that can withstand extreme impacts while maintaining true shape long-term.

Specs
  • Ultimate Tensile Strength:
    • Post-Cured*: 34 ± 3.4 MPa
  • Flexural Strength:
    • Post-Cured*: 0.67 ± 0.06 GPa
  • Flexural Modulus:
    • Post-Cured*: 0.57 ± 0.03 GPa
  • Elongation at Break:
    • Post-Cured*: 170 ± 17 %
  • Notched Impact:
    • Post-Cured*: 375 J/m
  • Heat Deflection Temperature @ 1.8 MPa:
    • Post-Cured*: 59ºC
  • Hardness:
    • Shore D, 64

*Data for post-cured samples were measured on Type IV tensile bars printed on a Form 2 printer with 100 µm PU Rigid 650 Resin settings, washed in a Form Wash for 2 minutes in ≥99% PGDA, and post-cured.

Application
  • Impact-resistant components
  • Pliable mechanical connectors
  • Shock-absorbing bumpers and dampeners
  • Noise-dampening components
Technology/Process
  • Stereolithography (SLA)

esd-resin-formlabs

ESD

Material: Electrostatic discharge material (ESD)

ESD Resin is a cost-effective solution for producing static-dissipative parts designed to endure use on the factory floor.

Specs
  • Ultimate Tensile Strength:
    • Green*: 44.2 MPa
    • Post-Cured*: 6410 psi
  • Tensile Modulus:
    • Green*: 1.937 GPa
    • Post-Cured*: 280.9 ksi
  • Elongation at Failure:
    • Green*: 12%
    • Post-Cured*: 12%
  • Heat Deflection Temperature @ 1.8 MPa:
    • Green*: 54.2ºC
    • Post-Cured*: 129.6ºF
  • Hardness: Shore D, 90

Electrical Properties:

    • Surface Resistivity: 1055 – 1088 Ω/sq
    • Volume Resistivity: 105 – 107 Ω/sq

*Data and specs were measured on Type IV tensile bars printed on a Form 3 printer with 100 µm ESD Resin settings, washed in a Form Wash for 20 minutes in ≥99% Isopropyl Alcohol and post-cured at 70°C for X 60 minutes in a Form Cure.

Application
  • Tooling & fixturing for electronics manufacturing
  • Custom trays for component handling and storage
  • Anti-static prototypes and end-use components
Technology/Process
  • Stereolithography (SLA)

Formlabs_castable wax

Castable Wax

Material: Formlabs® Castable Wax

Castable Wax offers high strength and stiffness, making it highly capable of printing ultrafine filigree jewelry. It is filled with 20% wax for clean, reliable casting.

Specs
  • No post-curing required

Material Properties:

  • Ultimate Tensile Strength:
    • Green: 12 MPa
  • Tensile Modulus:
    • Green: 220 MPa
  • Elongation at Break (green): 13%

Burnout Properties

  • Temperature @ 5% Mass Loss:
    • Green: 249ºC
  • Ash content (TGA):
    • Green: 0.0 – 0.1%
Application
  • The high green strength of this resin ensures excellent shape retention for thin patterns such as wire filigree.
  • Lightweight, intricate jewelry
  • One material for prototypes and production
Technology/Process
  • Stereolithography (SLA)

Castable-Wax-40-Formlabs

Castable Wax 40

Material: Formlabs® Castable Wax 40

Castable Wax 40 Resin offers exceptional casting performance for challenging designs with a new 40% wax formula and low thermal expansion.

Specs
  • Cleanly cast stone settings, embossed text, and heavy pieces
  • It uses gypsum investment and standard burnout
  • No post-curing required

Burnout Properties

  • Temperature @ 5% Mass Loss:
    • Green: 249ºC
  • Ash content (TGA):
    • Green: 0.0 – 0.1%
Application
  • This resin is ideal for direct casting the broadest range of styles, from heavy-class rings and medallions to lightweight bridal jewelry.
Technology/Process
  • Stereolithography (SLA)

Rigid-4000-resin-Formlabs

PU Rigid 4000

Material: Formlabs' Rigid 4000 Polyurethane

Rigid 4000 Resin is reinforced with glass to offer very high stiffness and a polished finish. This material is highly resistant to deformation over time and simulates PEEK’s stiffness.

Specs
  • Ultimate Tensile Strength:
    • UV-Cured*: 69 MPa
  • Flexural Strength:
    • UV-Cured*: 105 MPa
  • Flexural Modulus:
    • UV-Cured*: 3.4 GPa
  • Elongation at Break:
    • UV-Cured*: 5.3 %
  • Notched Impact:
    • UV-Cured*: 23 J/m
  • Heat Deflection Temperature @ 1.8 MPa:
    • UV-Cured*: 60ºC

*Data was obtained from parts printed using Form 3, 100 μm, Rigid 4000 (formerly Rigid v1) settings and post-cured with a Form Cure for 15 minutes at 80°C.

Application
  • Mounts and brackets
  • Thin-walled parts
  • Jigs and Fixtures
Technology/Process
  • Stereolithography (SLA)

Rigid-10k-Formlabs

Rigid 10K

Material: Formlabs® Rigid 10K Resin

Rigid 10K Resin is our stiffest material that is ideal for precise industrial parts that need to withstand significant load without bending and benefit from resistance to heat and chemicals.

Specs
  • Ultimate Tensile Strength:
    • UV Cured*: 65 MPa
  • Flexural Strength:
    • UV Cured*: 126 MPa
  • Tensile Modulus:
    • UV Cured*: 10 GPa
  • Elongation at Break:
    • UV Cured*: 1%
  • Notched Impact:
    • UV Cured*: 16 J/m
  • Heat Deflection Temperature @ 1.8 MPa:
    • UV Cured*: 82ºC

*Data was obtained from parts printed using Form 3, 100 μm and post-cured with a Form Cure for 60 minutes at 70°C.

Application
  • Short-run injection mold masters and inserts
  • Aerodynamic test models
  • Heat resistant and fluid-exposed components, jigs, and fixtures
  • Simulates stiffness of glass and fibre-filled thermoplastics
Technology/Process
  • Stereolithography (SLA)

Tough 2000

Material: Formlabs® Tough 2000

Tough 2000 is the strongest and stiffest material in the Tough and Durable resins family. Ideal for prototyping, solid and sturdy parts that should not bend easily.

Specs

Material Properties:

  • Ultimate Tensile Strength:
    • Green: 29 MPa
    • Post-Cured*: 46 MPa
  • Elongation at Break:
    • Green: 74%
    • Post-Cured*: 48%
  • Flexural Strength:
    • Green: 17 MPa
    • Post-Cured*: 65 MPa
  • Flexural Modulus:
    • Green: 0.45 GPa
    • Post-Cured*: 1.9 GPa
  • Notched Izod:
    • Green: 79 J/m
    • Post-Cured*: 40 J/m
  • Heat Deflection Temperature @1.8 MPa:
    • Green: 42°C
    • Post-Cured*: 53°C

*Data was obtained from parts printed using Form 2, 100 μm, Tough 1500 settings and post-cured with a Form Cure for 60 minutes at 70°C.

Application
  • Strong and stiff prototypes
  • ABS-like strength and stiffness
  • Sturdy jigs & fixtures
Technology/Process
  • Stereolithography (SLA)

Tough 1500

Material: Formlabs® Tough 1500

Tough 1500 Resin is a resilient material certified for long-term skin contact that is ideal for stiff and pliable parts that bend and spring back quickly.

Specs
  • Simulates the strength and stiffness of polypropylene (PP)

Material Properties:

  • Ultimate Tensile Strength:
    • Green: 26 MPa
    • Post-Cured*: 33 MPa
  • Elongation at Break:
    • Green: 69%
    • Post-Cured*: 51%
  • Flexural Strength:
    • Green: 15 MPa
    • Post-Cured*: 39 MPa
  • Flexural Modulus:
    • Green: 0.44 GPa
    • Post-Cured*: 1.4 GPa
  • Notched Izod:
    • Green: 72 J/m
    • Post-Cured*: 67 J/m
  • Heat Deflection Temperature @1.8 MPa:
    • Green: 34°C
    • Post-Cured*: 45°C

*Data was obtained from parts printed using Form 2, 100 μm, Tough 1500 settings and post-cured with a Form Cure for 60 minutes at 70°C.

Application
  • Springy prototypes and assemblies
  • Jigs and fixtures
  • Snap-fit and press-fit connectors
  • Wearables, personal protective equipment, and other consumer goods
  • Stiff, pliable biocompatible parts
Technology/Process
  • Stereolithography (SLA)

Image shows 3D printed parts with Alumina 4N ceramic resin from Formlabs

Alumina 4N

Material: Ceramic Resin

Alumina 4N is a high-density, high-purity technical ceramic with great performance in extreme environments. Thermally resistant, hard, abrasion resistant, mechanically strong, and chemically inert.

Specs

Sintered Physical & Mechanical Properties:

  • 4 Point Flex Strength (XY)1,2: 400 MPa
  • 4 Point Flex Strength (Z)1,2: 320 MPa
  • Young’s Modulus: 390 GPa MPa
  • Vickers Hardness*: 1500

Resin Properties:

  • Purity [%]: 99.99%
  • Relative Density: 98.60%
  • Colour: Off-white

Thermal Properties:

  • CTE (Coefficient of Thermal Expansion): 5 ppm/K
  • Maximum Working Temperature: 1500°C
  • Thermal Conductivity1,2: 32 W/m·K

1 | Currently testing at an independent lab.
2 | All sintered parts were fired using a 2-oven conservative firing schedule (schedule #1).

3D Printer Compatibility

  • Form 3
  • Form 3+
  • Form 3B
  • Form 3B+
Application
  • High-voltage components
  • Insulating housings or tubes
  • Mixing blades and pipes
  • Foundry tools for metal casting
Technology/Process
  • SLA (Stereolithography)

Technical Specifications

Form 3+ and Form3B+

Form3Plus_Formlabs

3D Printing Technology
3D Printing Technology
Low Force Stereolithography (LFS)™
Resin Fill System
Resin Fill System
Automated, Cartridge-based system
Build Volume (W x D x H)
Build Volume (W x D x H)
14.5 × 14.5 × 18.5 cm

5.7 × 5.7 × 7.3 in
Layer Thickness (Axis Resolution)*
Layer Thickness (Axis Resolution)*
25 – 300 microns
.001 – .012 in


*Layer thickness availability varies by material.
XY Resolution**
XY Resolution**
25 microns
0.001 in

**XY resolution describes how precisely the printer can draw in the XY (horizontal) plane
Laser Spot Size
Laser Spot Size
85 microns
0.0033 in
Biocompatible Materials
Biocompatible Materials
Only on Form 3B+
Printer Dimensions (W × D × H)
Printer Dimensions (W × D × H)
40.5 × 37.5 × 53 cm
15.9 × 14.8 × 20.9 in
Internal Temperature
Internal Temperature
Auto-heats to 35 °C
Auto-heats to 95 °F
Temperature Control
Temperature Control
Air-heated print chamber
Operating Environment
Operating Environment
18 – 28°C
64 – 82°F
Power Requirements
Power Requirements
100 – 240 VAC
2.5 A
50/60 Hz
220 W
Laser Specifications
Laser Specifications
1 Light Processing Unit
EN 60825-1:2007 certified
Class 1 Laser Product
405 nm wavelength
250 mW power
85-micron (0.0033 in) laser spot
Connectivity
Connectivity
Wi-Fi (2.4, 5 GHz)
Ethernet (1000 Mbit)
USB 2.0
Printer Control
Printer Control
5.5" interactive touchscreen
1280 × 720 resolution
Alerts
Alerts
  • Touchscreen alerts
  • SMS/email via Dashboard
  • Two LED status indicators
  • Speaker for audio alerts