We provide industrial-grade additive 3D printing technologies for the entire production cycle, from design and prototyping to manufacturing and end-use parts. Let us help you match the right technology to your business needs.
Allows for smooth, accurate multi-material parts from prototype to production, offering complex geometries, intricate detail, and full-color combinations, transparencies, and flexibilities in a single model.
Precise and detailed parts, suitable for concept or functional prototyping and low volume end use part production.
Filament extrusion technology employing a broad range of thermoplastics to make accurate, durable components for prototypes, tooling, and end-use parts.
Most consistent, accurate evolution of DLP for injection-molding-like surface quality parts in a broad range of high-performance materials for (high-mix/) low-volume production and industrial-grade functional prototyping.
Allows for cost-effective, high-throughput volume production of consistent, functional end-use parts.
Allows for smooth, accurate multi-material parts from prototype to production, offering complex geometries, intricate detail, and full-color combinations, transparencies, and flexibilities in a single model.
Precise and detailed parts, suitable for concept or functional prototyping and low volume end use part production.
Filament extrusion technology employing a broad range of thermoplastics to make accurate, durable components for prototypes, tooling, and end-use parts.
Most consistent, accurate evolution of DLP for injection-molding-like surface quality parts in a broad range of high-performance materials for (high-mix/) low-volume production and industrial-grade functional prototyping.
Allows for cost-effective, high-throughput volume production of consistent, functional end-use parts.
With the largest portfolio of polymer 3D printing materials, providing solutions tailored to a large array of applications. Featuring a broad variety of functional and performance properties, our innovative materials enable the creation of new use cases, from prototyping to end-use parts across all industries.
Flexible to rigid materials for prototypes, parts and visual models in full color with rubber-like, biocompatible and transparent options.
From prototyping to mechanical & functional performance, broadening end-use part production (we have more performance materials than high temp and weathering).
Broad range of thermoplastics ranging from durable engineering grade to high-strength, high-performance options.
Broad range of performance materials for each application: tough, flexible, high-temperature and other specialty materials.
Versatile polymers for powder bed technology. Ideal for high-volume, accurate parts at lower cost.
Flexible to rigid materials for prototypes, parts and visual models in full color with rubber-like, biocompatible and transparent options.
From prototyping to mechanical & functional performance, broadening end-use part production (we have more performance materials than high temp and weathering).
Broad range of thermoplastics ranging from durable engineering grade to high-strength, high-performance options.
Broad range of performance materials for each application: tough, flexible, high-temperature and other specialty materials.
Versatile polymers for powder bed technology. Ideal for high-volume, accurate parts at lower cost.
Make your Product Design Standout with PolyJet CMF Modelling 3D Printers
View moreStereolithography (SL) is a 3D printing technology used for building prototypes, tooling or casting patterns. SL technology is renowned for building parts with extremely smooth surfaces and intricate detail. This is ideally suited for industries that want part quality without the part preparation time. Once a build is complete and supports removed, stereolithography parts may appear finished. However, SL 3D printed parts still require an element of post-processing to either improve the mechanical properties or to enhance the cosmetics of the design, if required.
View moreAdditive Manufacturing, using FDM technology, has provided an innovative method for creating manufacturing aids, tools, and production parts for a wide variety of industries
Support-free printing is one of many powerful capabilities enabled by the Origin One. Support-free printing can offer a number of substantial advantages in production applications. To maximise the potential of support-free printing, it is important to have a good understanding of the constraints and a strong dialogue between the printing and design teams.
View moreThis SAF™ technology Design Guide provides how to achieve the best outcome with the advanced options that the H350 printer provides. Download it here.
View moreMake your Product Design Standout with PolyJet CMF Modelling 3D Printers
View moreStereolithography (SL) is a 3D printing technology used for building prototypes, tooling or casting patterns. SL technology is renowned for building parts with extremely smooth surfaces and intricate detail. This is ideally suited for industries that want part quality without the part preparation time. Once a build is complete and supports removed, stereolithography parts may appear finished. However, SL 3D printed parts still require an element of post-processing to either improve the mechanical properties or to enhance the cosmetics of the design, if required.
View moreAdditive Manufacturing, using FDM technology, has provided an innovative method for creating manufacturing aids, tools, and production parts for a wide variety of industries
Support-free printing is one of many powerful capabilities enabled by the Origin One. Support-free printing can offer a number of substantial advantages in production applications. To maximise the potential of support-free printing, it is important to have a good understanding of the constraints and a strong dialogue between the printing and design teams.
View moreThis SAF™ technology Design Guide provides how to achieve the best outcome with the advanced options that the H350 printer provides. Download it here.
View more3D Printing technologies, often referred to as additive manufacturing technology (AM), spans a wide technological spectrum, encompassing various processes that fabricate three-dimensional items from digital designs. These tangible components are assembled by sequentially depositing layers of materials, such as powdered plastic, metal, or liquid, to form the desired three-dimensional structures.
Stratasys industrial-grade 3D Printers primarily utilize our advanced 3D printing technologies of PolyJet, SLA, FDM, P3™ DLP and SAF, one of Stratasys latest 3D printing technologies. These technologies cater to a broad spectrum of needs, from 3D printing technologies for rapid prototyping to production of end-use-parts. If you're an industrial engineer, designer, healthcare or dental professional, or even in education, our commercial 3D printers are tailored to boost innovation and efficiency. Our offerings range from professional desktop 3D printers to large format production-ready machines, and they're trusted by leading companies worldwide to maintain a competitive advantage.
The primary advantages of 3D printing manufacturing technologies include tangible cost savings and quicker turnaround times. The process results in fewer errors and helps for maintaining in-house privacy for designs. One of its highlights is the reduced need for massive inventories, thanks to its on-demand production capabilities. Furthermore, it grants the capability to fabricate detailed designs which might be challenging for traditional methods. This technology also allows for tailored products that don't increase costs, optimizes operational efficiency, and ensures gaining a competitive advantage.
