3D Printing in 

Successful jewelry design requires creativity and quality. 3D printers allow for a quick and cost-effective way of producing high fidelity custom designs.

3D printing technology is increasingly being used in the jewelry industry to create unique and customized jewelry designs with intricate details and textures. With 3D printing, jewelry designers can create highly precise and accurate molds for casting, allowing for more efficient and cost-effective production processes. The technology also allows for the creation of complex and intricate designs that were previously difficult or impossible to achieve through traditional jewelry-making techniques. 3D printing also enables designers to experiment with new materials, such as titanium and other metals, that can be difficult to work with using traditional methods. As 3D printing technology continues to improve and become more widely available, it is likely that we will see more widespread use of the technology in the jewelry industry.

Explore some common applications


Lost Wax Casting

With 3D printing, you’ll reveal your most creative jewelry designs faster and increase productivity without compromising quality. Create 3D printed jewelry casting patterns that fit with your standard process for reliable output every time, bringing you maximum design freedom for high-volume and mass custom jewelry manufacturing.


With 3D printing, you’ll create innovative ways to bring safe, high-quality, and reliable medical devices and instrumentation to market faster. 3D printing enables solutions that help translate virtual surgery into the OR, improve surgical outcomes, and elevate the patient experience.

Mold Making

With 3D printing, accelerate creativity with accurate, finely detailed, high-fidelity prototypes. Provide a quick turnaround from digital designs to 3D printed jewelry models, allowing for fast design iteration, validation, stone settings, and try-on.

Popular 3D printers used by 
specialists in the industry


Figure 4 DLP


ETEC Xtreme 8K

The Xtreme 8K makes volume production of 3D-printed parts a reality, with the ability to print thousands of parts per day. With wide material compatibility, including hard plastics, high-temperature plastics, elastomers and rubbers, the Xtreme 8K enables the production of the broadest possible range of parts.

The Xtreme 8K leverages long-chain polymer chemistry to create fully-isotropic, stable, end-use parts, and features a heated vat, allowing users to process highly viscous and solid materials at room temperatures.

ETEC Envision One

The Envision One is a highly advanced 3D printer designed to produce high-quality and precise prints. It utilizes advanced DLP technology that can cure the entire layer of the resin at once, allowing for faster and more efficient printing. With a large build volume and fast print speeds, this 3D printer is perfect for professionals who require high precision and speed in their 3D printing projects.


The P4K is a revolutionary 3D printer that uses advanced UV DLP technology to produce high-quality prints with extreme accuracy. With its patented Pixel Tuning technology, it can produce prints with resolutions as high as 4K, making it ideal for applications that require high precision and detail. It also features a large build volume, fast printing speeds, and compatibility with a wide range of materials, making it a versatile and reliable 3D printer for professionals.


The D4K is a high-end 3D printer that utilizes advanced DLP technology to produce incredibly precise and accurate prints. It features a 4K resolution projector and advanced software that allows for fast and efficient printing. The D4K is perfect for applications that require high precision and detail, such as jewelry making, dental applications, and more. With its large build volume, fast printing speeds, and exceptional accuracy, the D4K is a top-of-the-line 3D printer for professionals.

Figure 4 Standalone

The Figure 4 Standalone is a compact, easy-to-use 3D printer designed for high-speed prototyping and production. With a build volume of 125 x 70 x 120 mm, it is capable of producing parts with accuracy and precision at speeds up to 100 mm per hour. The printer features a user-friendly interface and can print with a range of materials, including engineering-grade plastics and elastomers, making it ideal for a wide range of applications in industries such as aerospace, automotive, and healthcare.

Figure 4 Modular

The Figure 4 Modular is a scalable, high-performance 3D printing system that is designed for production environments. The printer features a modular architecture that allows for multiple printers to be connected and synchronized, enabling the production of high volumes of parts quickly and efficiently. With a build volume of 350 x 350 x 200 mm, the Figure 4 Modular is capable of producing large, complex parts with precision and accuracy. The printer also offers a range of materials, including tough, high-performance plastics, making it an ideal solution for a variety of industrial applications.

Figure 4 Production

The Figure 4 Production is a high-speed, high-volume 3D printing system that is designed for mass production. With a build volume of 380 x 380 x 350 mm, the Figure 4 Production is capable of producing large, complex parts with accuracy and precision at speeds up to 100 mm per hour. The printer features a modular design that allows for customization and scalability, making it an ideal solution for industrial applications such as aerospace, automotive, and healthcare. The Figure 4 Production also offers a range of materials, including production-grade plastics, enabling the production of high-quality, functional parts at scale.

3D Printing in 


3D Printing in 


3D Printing in 
Art and Design


3D Printing in 


3D Printing in 


3D Printing in 
Food and Beverage


3D Printing in 


3D Printing in


3D Printing in 
Aerospace and Aviation