J735/J750

Dokuz Eylul University - FR PolyJet Case Study

Turkey's Dokuz Eylül University Hospital specializes in translational medicine, a discipline in biomedical research which aims to improve human health by using a collaborative approach to explore new diagnostic tools and treatments. Liver transplant surgeries in particular brought the challenge of an increasing number of donor deaths.

Karcher Innovative Prototyping - FR Case Study

Kärcher is a leading provider of cleaning technology worldwide. With a continually updated portfolio comprising products that are less than five years old, the company constantly optimizes and redesigns the best solutions for its customers. With this level of throughput comes a strain on design and production cycles, as the company needs the best results possible in limited time frames. Needing to design its latest product with unique aesthetics and functionality, Kärcher found that Stratasys PolyJet technology proved the ideal solution to speed up its prototyping processes and ensure product development times were maintained.

Microsoft Fail Fast - FR PolyJet Case Study

Learn how Microsoft is accelerating their product development with Stratasys PolyJet™ Technology.

AP Racing J750 - PolyJet Case Study

ENGLISH | Legacy Automotive Case Study | UK-based automotive manufacturer, AP Racing, is known for its innovative performance brake and clutch systems for road and race cars. Faced with ever-advancing creative briefs and aggressive competition, the team sought a solution that could enable them to better test its designs and improve production. The company has integrated Stratasys' advanced J750™ 3D printer in-house to reduce design cycles and alleviate certain design challenges. Using the full-color, multi-material 3D printer, AP Racing produces highly detailed and complex 3D models of FEA stress plots to provide proof of concepts to its customers, which has resulted in new business. The team is also using its J750 to produce advanced, one-off tooling fixtures for a laser etching machine. The fixtures can be 3D printed in under 24 hours, and much more cost-effectively than through external suppliers.

Biomedical Modeling Superior Medical Models - EN PolyJet Case Study

PolyJet Stratasys J750 Legacy Medical Case Study | With more than 360,000 colors and textures as soft as tissue and as hard as bone, the Stratasys J750 3D Printer enables the unparalleled ability to recreate human anatomy in a clinically relevant training simulator.

Dokuz Eylul University - EN PolyJet Case Study

Turkey's Dokuz Eylül University Hospital specializes in translational medicine, a discipline in biomedical research which aims to improve human health by using a collaborative approach to explore new diagnostic tools and treatments. Liver transplant surgeries in particular brought the challenge of an increasing number of donor deaths.

Florenradica - EN PolyJet Case Study

Florenradica, a manufacturer and provider of accessories to the fashion industry, including many of the world’s leading fashion brands. In 2014, a new iteration of the company was formed with a business model focused on leveraging 3D printing to service its customers. Today, 3D printing is the sole technology deployed in-house for design and manufacturing.

Giochi Preziosi - EN PolyJet Case Study

Founded in 1978 in Italy, Giochi Preziosi is the first Italian toy manufacturer and the fourth branded toy company in the European covered market (EU4). The company decided to invest in a Stratasys J750™ 3D printer to leverage full color, multimaterial 3D printing for ultrarealistic prototyping to visualize new ideas in the innovation pipeline.

Google Jacquard - EN PolyJet Case Study

ENGLISH | Google's ATAP team utilized Stratasys PolyJet 3D printing technology to develop the Jacquard wearable platform, which integrates motion-sensitive tags into everyday items like jackets, shoes, and backpacks. PolyJet's versatility allowed for rapid prototyping of multi-material and multi-color components, reducing lead times from weeks to a single day. The technology enabled precise customization, such as replicating textures like leather or wood, while maintaining high fidelity and functional performance. This streamlined process saved significant time and costs during development while enhancing the design flexibility needed for innovative wearable devices that seamlessly blend into users' lifestyles.