What is PolyJet Technology?
PolyJet is a powerful 3D printing technology that produces smooth, accurate parts, prototypes and tooling. With microscopic layer resolution and accuracy down to 0.014 mm, it can produce thin walls and complex geometries using the widest range of materials available with any technology.
Benefits of PolyJet:
- Create smooth, detailed prototypes that convey final-product aesthetics.
- Produce accurate molds, jigs, fixtures and other manufacturing tools.
- Achieve complex shapes, intricate details and delicate features.
- Incorporate the widest variety of colors and materials into a single model for unbeatable efficiency.
Make it more realistic and accurate with PolyJet
Stratasys offers PolyJet technology 3D prints in the widest variety of materials, so you can create ergonomic tooling, bio-compatible surgical guides or realistic prototypes that closely resemble finished products.
Models are precisely printed in layers as fine as 16 microns for smooth surfaces and complex geometries. Material properties range from rubber-like to rigid, transparent to opaque, neutral to vibrantly colored, and standard to bio-compatible plastics.
Stratasys FDM (Fused Deposition Modeling) materials are engineered to deliver unmatched performance, durability, and precision for additive manufacturing applications across industries. From prototyping to production, Stratasys offers a wide range of thermoplastics—each designed to meet specific mechanical, thermal, and chemical requirements. Whether you're creating functional prototypes, end-use parts, or manufacturing tools, Stratasys FDM materials provide the reliability and repeatability that engineers, educators, and manufacturers demand.
Get ready for a new era of 3D printing.
Programmable PhotoPolymerization P3™ technology, an evolution of digital light processing (DLP) is ushering in a new era in 3D printing: the mass production of functional end-use parts.
P3 software precisely orchestrates light, temperature, pull forces and pneumatics to optimize prints for the best possible results. With P3, manufacturers can achieve injection molding part quality and surface finish with incredible accuracy, in a diverse and continuously growing range of high-performance materials.
What makes P3 unique?
P3 is a combination of several tightly controlled, programmable steps in the printing process. P3 extends DLP printing’s capabilities and supports the next generation of production applications made with photopolymers. This powerful combination of production-grade technology and performance materials unlocks functional end-use applications in 3D printing with competitive throughput and part cost.
How it works:
Four critical parts of the P3 process enable the unique combination of high throughput, production-grade part quality and materials.
- Light: Programmable light sets off an exothermic reaction that forms layers with outstanding resolution, accuracy and dosage control.
- Environmental stability: Temperature-controlled printing mitigates warping and shrinkage, while unlocking materials with advanced properties, like flame retardancy.
- Pneumatic separation: A perfectly timed separation procedure reduces pull forces, leading to a molded-like surface finish, high-throughput and ultra-fine features, such as textures or large surface areas like molds.
- Motion: Precise control over printer movements ensures a repeatable, fast and accurate workflow in a wide range of geometries and high-performance materials.
- Green Strength: The P3 process produces a high polymerization conversion, unlocking faster print times, extreme geometries, and build nesting.
Stereolithography is an additive manufacturing process that uses a vat of liquid UV-curable photopolymer resin and a UV laser to build parts one layer at a time.
Benefits of stereolithography include:
- Parts with smooth sidewall quality and detail
- Low-volume part production of complex geometries
- Tight tolerances, layer thickness of between 50 to 200 microns
- Versatile range of materials for specific applications
Stereolithography is commonly used as a prototyping technology within industries that need to print parts or models to validate fit form and function or for concept visualization. Stereolithography is also used in manufacturing applications for short-run part production, such as vacuum castings, injection mold tooling, investment casting master patterns, and functional end-use part production for certain environments.
Due to its competitive build times and the superior quality of the finish straight off the machine, very little post-processing is required, providing cost savings and reduced lead times.
SAF™ Selective Absorption Fusion™
Boost your manufacturing capability with powder bed fusion 3D printing.
SAF technology is the power behind the H Series™ Production Platform, designed for production-level throughput of end-use parts.
The SAF-powered H350™ 3D printer provides you with control over your production and costs. Grow your business through volume production with consistent end-use functional parts.
What is SAF?
SAF is the industrial-grade technology that powers the powder-based additive manufacturing process, leading to higher end-use parts production levels. SAF is the latest 3D printing technology behind the H Series Production Platform that enables control over the printing process to achieve accurate, consistent production at competitive part costs.
How SAF technology works:
SAF is the technology behind the H350’s powder bed fusion 3D printing process. SAF uses HAF™ infrared absorption fluid to fuse polymer powder particles in layers to build parts. It also utilizes Big Wave™ powder management, a proprietary technology that provides reliable powder distribution across the build, where industrial-grade piezo-electric print heads jet the HAF fluid in prescribed areas to create each part cross-section. This is followed by exposure to infrared energy, which causes the areas with HAF to melt and fuse. The sequence is repeated until the parts are completed.
Typical Applications
Industrial-grade technology
Industrial Piezo-electric print heads and innovative powder management designed for durability and high uptime.
Production throughput
One-pass print-and fuse, few consumable replacements for minimal downtime, and high nesting densities to meet production demands.
End-use production parts
Real-time powder heating, unique thermal management, and broad powder range for a wide spectrum of part properties.
Advancing Additive Manufacturing
FDM 3D printed parts are tough enough to be used as advanced conceptual models, functional prototypes, manufacturing tools, and production parts. Using strong, reliable, and durable materials, FDM 3D printers streamline production processes from design through manufacturing, reducing costs and eliminating traditional barriers.
Download our FDM 3D printer systems and materials overview brochure. A much-needed asset for your entry into FDM 3D printing.
Agilus30™ materials have properties that simulate Shore A 30 rubber. With this family of rubber-like materials, you can print flexible full-color 3D prints.
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Item Number:123-01Explore renewable energy, battery storage, EV charging, and smart home technologies with the Smart Home Energy Trainer (123-01). This hands-on training system helps students develop real-world skills in residential energy management, grid interaction, and energy diagnostics.
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Item Number:950-SH1Amatrol’s Steam System Training System (950-SH1) introduces learners to the operation, installation, maintenance, and repair of steam systems and their application in paper mills, commercial and residential settings, power companies, and even nuclear submarines.
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Item Number:F170 / F370The Stratasys F Series is the ultimate, all-in-one rapid prototyping system for your entire team. It combines the power of FDM with the ease of GrabCAD Print for the most versatile and intelligent solution available.
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Item Number:J55The Stratasys J55 Prime 3D printer introduces full color, high fidelity with tactile, functional, and sensory capabilities - making the efficiency and quality of PolyJet Technology more affordable and office-friendly than ever.
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Item Number:J850 DAPThe Stratasys J850™ Digital Anatomy™ 3D Printer combines materials and software to create 3D medical models of human anatomy that mimic bone and tissue with realism you can see and feel.
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Item Number:T7081Understanding HVAC/R, geothermal, refrigeration, and steam systems requires a good hold on the basics. With Amatrol's T7081 Applied Thermal Science Trainer, you can provide the hands-on training your students or employees need.
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BOFA’s Advantage 350 fume extraction and filtration system effectively removes potentially harmful fumes and particulates created during the laser marking process. By maintaining a dust-free operating area, the system helps to protect valuable equipment, maintain a higher quality mark, and reduce the number of rejects and contaminants.
The quiet and compact Advantage 350 is ideal for use in light-duty laser marking applications, including schools, sign making workshops and small-scale industrial environments.
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Our largest high-volume fume extractor with unique Gullwing filter access design making filter exchange quick, safe and easy.
BOFA’s AD 4000 laser fume extraction unit combines large filter capacity with high airflows. This combination makes the AD 4000 ideal for large laser engravers, laser cutters as well as multiple laser coding installations.
Easily accessible filters are accommodated by the uniquely styled gas spring assisted ‘Gull Winged’ doors, which allow for maximum space and ease when changing filters.
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BOFA’s AD 1000 iQ high end laser extraction system combines extremely large filter capacity with high airflow and pressure rates, making it the ideal choice for heavy-duty applications that generate large amounts of particulate and gaseous organic compounds.
Performance has now been further enhanced with the inclusion of several new features including BOFA’s new iQ Operating System, making the new AD 1000 iQ one of the most advanced system available.
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The AD Access combines economic ownership with performance to match the small laser user. A three-stage filter condition indicator is included as a standard feature, together with three stage filtration: DeepPleat pre-filter, HEPA and chemical section.




















