Meet changing market demands with efficient alternatives for product development, customized tooling, and legacy equipment support.
Changing environmental conditions and variations in regional farming needs require that manufacturers become more agile to meet customer needs. Whether it’s faster product development, greater customization, obsolete part replacement, or mitigating supply chain disruptions, additive manufacturing offers more time- and cost-efficient alternatives to traditional production methods.
RAUCH harnesses SAF™ and FDM® technologies for innovative equipment manufacturing.
3D printing applications for the agricultural equipment industry cross the spectrum from rapid prototyping for faster product development to lighter, more ergonomic manufacturing tooling to end-use production parts.
Rapid prototyping with additive technology allows faster iteration resulting in optimized designs.
3D printed tools avoid the excessive lead time of machined tools and afford greater customization and ergonomics.
Rapid prototyping with additive technology allows faster iteration resulting in optimized designs.
3D printed tools avoid the excessive lead time of machined tools and afford greater customization and ergonomics.
Additive manufacturing enables economical low-volume and on-demand production for new and replacement parts.
Multiple additive technologies support a broad variety of agricultural applications. FDM systems offer robust materials for demanding use cases. Origin P3 printers support a wide material spectrum and offer superb surface finishes, while the H350 SAF technology printer affords higher-volume production levels.
Cover more applications with the F370CR’s diverse material selection including carbon fiber.
The Origin One with P3 technology is capable fast printing and injection-mold-like surface quality.
The Fortus 450mc delivers industrial-grade printing with a highly versatile range of materials.
Large capacity, high-performance materials, and proven dependability make the F900 the FDM workhorse.
The H350 utilizes SAF powder bed technology to provide cost-effective part production at scale.
Stratasys additive technologies offer a diverse selection of materials that are able to meet the varied applications of the agricultural equipment industry. These materials take on several forms, from FDM thermoplastic filaments to P3 technology photopolymers to the powdered materials used with SAF technology.
Standard thermoplastics, carbon-fiber composites, and high-performance PEI polymers highlight the FDM material portfolio.
P3 photopolymers include a wide range of characteristics from elastomers to high-impact materials.
Standard thermoplastics, carbon-fiber composites, and high-performance PEI polymers highlight the FDM material portfolio.
P3 photopolymers include a wide range of characteristics from elastomers to high-impact materials.
SAF technology powdered polymers provide the capability to 3D print with widely used industrial materials.
See how RAUCH uses several additive technologies to help meet the stringent requirements of the agricultural equipment industry.
Learn more about the production and cost opportunities 3D printing offers the agricultural industry in this application brief.
See how RAUCH uses several additive technologies to help meet the stringent requirements of the agricultural equipment industry.
Learn more about the production and cost opportunities 3D printing offers the agricultural industry in this application brief.
Determining which additive technology to use can be a challenge. Get a clearer picture by downloading our 3D printer Buyer’s Guide.