USA & Canada
USA & Canada
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H350™ 3D Printer

Accurate, production-grade parts with
best-in-class* consistency.

bullet small Parts with no hidden costs.

bullet small Superior part quality and enhance aesthetics.

bullet small Boost your productivity and adaptable to your workflow process.

bullet small Powered by SAF Technology.

Meet high production demands with the
Stratasys H350 Powder Bed Fusion 3D Printer.

 

Features and Benefits

bullet small Compact & Scalable: Small industrial footprint allows easy factory integration and multi-printer scaling, enabling two H350 systems in the space of one competing solution.

bullet small Advanced Thermal Control: Closed-loop thermal management combines AI distributed ceramic heaters and sophisticated thermal cameras for highly repeatable accuracy and process stability.

bullet small Industrial-Grade Piezo-Electric Printheads: Designed for heavy-duty industrial environments, they enable precise drop control and support highly loaded fluids without consumable printheads or cleaning rolls. Printheads are covered under warranty.

bullet small High Productivity: Stratasys H350™ delivers scalable industrial production with hundreds of parts per build produced in under 12 hours, combining fixed print times with highly consistent end-use part quality.

bullet small Optimized Cost per Part: Minimizes operating costs through zero material waste, minimal consumables, reduced maintenance requirements, and highly efficient powder utilization for predictable, competitive production economics.

bullet small Automated Workflow: PowderEase™ T1 automates breakout, sieving, dosing, and loading, enabling one operator to efficiently manage multiple H350 printers.

Typical Applications

Although built for production applications, the H350 is suitable for prototyping and tooling applications.

strong-saf-technology-materials

Production Parts

Additive manufacturing is the ideal on-demand solution for cost-effective, low-volume, and bridge-to-production parts.

Deklor Robotic EOAT

End of Arm Tooling

Organic design capability and lighter materials make the H350 and SAF technology a good choice for better end-of-arm tools.

automotive wiring harness layout production

Wire Harness Fixtures with SAF Technology

Stratasys optimizes wire harness manufacturing with additive manufacturing.

strong-saf-technology-materials

Additive manufacturing is the ideal on-demand solution for cost-effective, low-volume, and bridge-to-production parts.

Deklor Robotic EOAT

Organic design capability and lighter materials make the H350 and SAF technology a good choice for better end-of-arm tools.

automotive wiring harness layout production

Stratasys optimizes wire harness manufacturing with additive manufacturing.

Want to learn more about the H350™ and SAF™ technology?

Contact us today for a sample part and demonstration.

Customer Success Stories

The following customer case studies highlight the H350 in multiple applications, including production parts, prototyping, and tooling.

custom 3d printed orthotics

GO Orthotics embraces Stratasys H350 SAF printer and High Yield PA11 material to deliver custom, 3D printed orthotics at scale

GO Orthotics retains competitive edge with additive manufacturing technology. Read how the SAF H350 3D printer and the High Yield PA11 made that possible.

View more
3D composites standing next to Stratasys printer

SAF Technology Expands Frontiers for Fast Prototyping and Parts Production

Read our new case study to learn how 3D Composites is expanding into new markets thanks to SAF technology.

View more
Nascar_3D_Printed_SAF_Air_Duct_1

Stratasys becomes NASCAR Competition Partner

Stratasys application engineers, using SAF™ technology on the H350™ printer recently came up with a solution to a major challenge facing NASCAR’s Next Gen car.

View more
Gripper printed by Gotz on H350

Götz Maschinenbau End of Arm Tooling Use Case

Götz Maschinenbau End of Arm Tooling Use Case that utilizes the H350 3D printer and SAF technology

View more
Rivelin Robotics header image hands holding plug

SAF Technology Increases Efficiency of Robotic Post-Processing Systems

Discover how Rivelin Robotics, overcame the challenge of complex 3D printed electrical connectors by adopting SAF technology.

View more
2021 12 20 stratasys paper 04 hw

DQBD leverages Stratasys H350 3D printer to revolutionize the cycling saddle

Explore the development and strategy behind the additive manufactured cycling saddle, printed by the H350 leveraging SAF technology.

View more
custom 3d printed orthotics

GO Orthotics embraces Stratasys H350 SAF printer and High Yield PA11 material to deliver custom, 3D printed orthotics at scale

GO Orthotics retains competitive edge with additive manufacturing technology. Read how the SAF H350 3D printer and the High Yield PA11 made that possible.

View more
3D composites standing next to Stratasys printer

SAF Technology Expands Frontiers for Fast Prototyping and Parts Production

Read our new case study to learn how 3D Composites is expanding into new markets thanks to SAF technology.

View more
Nascar_3D_Printed_SAF_Air_Duct_1

Stratasys becomes NASCAR Competition Partner

Stratasys application engineers, using SAF™ technology on the H350™ printer recently came up with a solution to a major challenge facing NASCAR’s Next Gen car.

View more
Gripper printed by Gotz on H350

Götz Maschinenbau End of Arm Tooling Use Case

Götz Maschinenbau End of Arm Tooling Use Case that utilizes the H350 3D printer and SAF technology

View more
Rivelin Robotics header image hands holding plug

SAF Technology Increases Efficiency of Robotic Post-Processing Systems

Discover how Rivelin Robotics, overcame the challenge of complex 3D printed electrical connectors by adopting SAF technology.

View more
2021 12 20 stratasys paper 04 hw

DQBD leverages Stratasys H350 3D printer to revolutionize the cycling saddle

Explore the development and strategy behind the additive manufactured cycling saddle, printed by the H350 leveraging SAF technology.

View more

Compatible Materials

H350 powdered materials include PA11 and PA12, offering high impact resistance, low moisture absorption, thermal stability, and ductility.

SAF™ PA12

SAF™ PA12

SAF™ PA12 – Powered by Evonik delivers accurate parts, balanced performance, and the lowest cost per part in the SAF™ portfolio. Built for scalable powder bed fusion, it ensures reliable, repeatable production without compromising quality.

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High Yield PA11

High Yield PA11

100% bio-sourced material made from Castor oil. Stratasys High Yield PA11 parts have great mechanical performance and are ideal for applications requiring improved impact and fatigue resistance.

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SAF PA12

SAF PA12

The most accurate, cost efficient and good all-round mechanical performance making SAF PA12 the most requested and versatile polymer in powder bed fusion.

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SAF™ PP (Polypropylene)

SAF™ PP (Polypropylene)

Discover the best-performing Polypropylene in Powder Bed Fusion — now with Enhanced Accuracy Mode for unmatched precision. From advanced orthotics to airtight, complex ducting, SAF™ PP delivers industry-leading performance.

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SAF ReLife™ PA12

SAF ReLife™ PA12

A sustainable and cost-effective solution, SAF ReLife PA12 allows for the reuse of PA12 powder waste from other PBF technologies, delivering high-quality parts with minimal material costs and up to 90% lower carbon footprint impact.

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SAF™ PA12

SAF™ PA12

SAF™ PA12 – Powered by Evonik delivers accurate parts, balanced performance, and the lowest cost per part in the SAF™ portfolio. Built for scalable powder bed fusion, it ensures reliable, repeatable production without compromising quality.

View more
High Yield PA11

High Yield PA11

100% bio-sourced material made from Castor oil. Stratasys High Yield PA11 parts have great mechanical performance and are ideal for applications requiring improved impact and fatigue resistance.

View more
SAF PA12

SAF PA12

The most accurate, cost efficient and good all-round mechanical performance making SAF PA12 the most requested and versatile polymer in powder bed fusion.

View more
SAF™ PP (Polypropylene)

SAF™ PP (Polypropylene)

Discover the best-performing Polypropylene in Powder Bed Fusion — now with Enhanced Accuracy Mode for unmatched precision. From advanced orthotics to airtight, complex ducting, SAF™ PP delivers industry-leading performance.

View more
SAF ReLife™ PA12

SAF ReLife™ PA12

A sustainable and cost-effective solution, SAF ReLife PA12 allows for the reuse of PA12 powder waste from other PBF technologies, delivering high-quality parts with minimal material costs and up to 90% lower carbon footprint impact.

View more
Stratasys SAF H350 PowderEase T1

PowderEase™ T1 Accessory

The PowderEase T1 is a 3-in-1 solution that automates powder breakout, retrieval, and dosing, reducing manual handling and increasing production uptime.

Designed to support multiple H350 printers, the T1 minimizes powder waste, ensures accurate dosing, and enables a cleaner, more controlled workflow, saving up to 50 minutes per build cycle compared to manual processes.

SAF GrabCAD Print Pro

GrabCAD™ Print Software

Industry-leading 3D printing software to empower your creativity.

GrabCAD™ Print maximizes SAF's potential. Its user-friendly interface and advanced features empower designers and engineers for precise control from file prep to print settings, enabling experimentation with materials, colors, and textures for exceptional accuracy and detail.

With GrabCAD™ Print, users benefit from reduced print prep time and scrap, resulting in greater cost and time savings.

PDF Icon White Paper:

Achieve Long-Term Performance with SAF™ Materials 
Key insights to superior UV resistance, durability, and performance.

PDF Icon Blog:

3D Printing for Drone and UAV Manufacturing 
Compared to traditional manufacturing, AM offers unmatched speed, flexibility, and cost efficiency, making it especially well-suited for the high-mix, low-volume nature of drone production.

Blog Powder Bed Fusion 3D Printing: Opening New Manufacturing Possibilities

SAF technology and the H350 3D printer were designed to take the polymer PBF process to a new level of performance that gives manufacturers tangible advantages relative to the status quo.

Customer Success Resources

Already have the H350 3D Printer? View additional documentation and resources on our Customer Success support website.

Frequently Asked Questions

The Stratasys H350 is designed for manufacturers that need reliable, high-throughput production of end-use parts. It is ideal for companies looking to bridge the gap between prototyping and high volume additive manufacturing production with consistent part quality and competitive cost-per-part.

The H350 offers a build volume of 315 x 208 x 293 mm (12.4 x 8.2 x 11.5 in.), enabling efficient production of both large parts and densely packed batches of smaller components.

The H350 supports: SAF PA12, SAF PA12 - Powered by Evonik, High Yield PA11, SAF PP, and SAF ReLife (allowing for used PA12 from other polymer PBF technologies)

The H350 printer stands out because of its unconstrained nesting density, allowing customers to optimize for cost with no part quality trade-offs. The typical nestings for H350 are around 12%, but for optimized applications the tech has proven up to 40% nesting densities with no quality trade-offs and easy unpacks even at the core of the build

Yes. The H350 was specifically developed for scalable, high-volume additive manufacturing. Its high nesting density, consistent thermal control, and industrial workflow make it well suited for serial production and repeatable end-use part manufacturing. Unlike other technologies, SAF is equipped with industrial piezo electric print haeads, which are not a consumable and dont require extra consumables such as cleaning roll, allowing for continuous production without having to continuously replace consumables on the printer.

Yes. The H350 integrates with GrabCAD Print™ software, allowing users to monitor and manage multiple printers and production workflows across a connected fleet environment.

Industries that use the H350 include automotive, aerospace, orthotics and prosthetics, consumer products, industrial manufacturing, robotics, medical and healthcare, and service bureaus. These industries use SAF™ technology to produce durable end-use parts, functional prototypes, and high-volume production components.

Yes. The H350 can compete with injection molding on cost per part in specific applications. Some SAF™ production workflows achieve a break-even point with injection molding at volumes reaching tens of thousands of parts, depending on part geometry, complexity, material usage, and production requirements.

The H350 produces smooth, production-grade parts with excellent detail resolution and consistent surface quality across the build. Parts can also be enhanced further with common post-processing options such as dyeing, vapor smoothing, bead blasting, or polishing.

No. The H350’s SAF™ process does not require a separate detailing agent. The technology uses High Absorption Fluid (HAF™) to achieve precise fusion and consistent part quality with a simplified workflow.

The H350 requires powder handling and depowdering equipment for efficient production workflows. The PowderEase T1 automates unpacking, sieving, dosing, and loading for H350 production. Additional depowdering systems, such as the AM Solutions S1 or DyeMansion PowerShot X, remove residual powder from printed parts.