skip to Main Content
3D printed silver ring

3D printed silver rings

Desktop Metal Qualifies Sterling Silver, Cementing Additive Manufacturing Leadership in Jewelry Industry

Desktop Metal now offers comprehensive solutions for jewelry and luxury goods manufacturers, from 3D printed models for lost-wax casting to direct 3D printing of precious metals.


BOSTON–(BUSINESS WIRE)–Desktop Metal announced that 925 sterling silver, a popular precious metal, is now qualified for 3D printing on the Production System platform, including both the P-1 and P-50, offering jewelry and luxury goods manufacturers the fastest way to directly 3D print high-quality jewelry, watches, belt buckles, and decorative hardware for handbags.

Sterling silver is qualified and fully characterised on both the Production System P-1 and P-50, with qualification of 18K yellow gold fast-tracked for 2022 in partnership with experienced luxury goods manufacturers. Strategic partnerships with industry innovators Christian Tse of Formula 3D Corporation in the U.S. and Neoshapes for the international market to advance precious metals powder supply chain as well as design and printing services.

Exquisite sterling silver chevron stacking rings were designed by Christian Tse and 3D printed on the Desktop Metal Production System P-1. The Production System now offers jewelry and luxury goods manufacturers the fastest way to directly 3D print high-quality sterling silver jewelry, watches, belt buckles, and decorative hardware for handbags. 

Desktop Metal is also fast-tracking the development of additional precious metal alloys in 2022, including 18K yellow gold, with active research and development underway on rose gold. Desktop Metal and its ETEC polymer brand have a longtime history of partnering with major jewelry producers around the world such as Cartier, Stuller, Shinola and Swarovski.

“The qualification of precious metals for direct 3D printing on high-speed binder jetting systems is a major milestone for the jewelry and luxury goods industry,” said Ric Fulop, Founder and CEO of Desktop Metal. “All the design freedom and customization of 3D printing can now be delivered directly at high volumes without all of the labor associated with traditional manufacturing processes. What’s more, this new direct 3D printing innovation builds on the established legacy of our ETEC brand, which has been a leader in 3D printers for lost-wax casting models for more than a decade — making us the unparalleled leader in comprehensive additive manufacturing solutions for the jewelry and luxury goods market.”

 

Partnerships to Advance Technology and Materials Development
To advance the technology and materials needed to bring world-class 3D printing quality, productivity, and economics to the demanding luxury goods and jewelry market, Desktop Metal is partnering with two leaders in precious metals powder and parts production: Formula 3D Corporation founded by Christian Tse of Christian Tse Designs & Manufacturing Inc. for the U.S. market, and Neoshapes for international clientele. Both of these collaborations aim to enable the luxury goods and jewelry markets to adopt metal binder jetting processes to produce end-use parts in precious metals, steels, and more.

Formula 3D Corporation offers designers and manufacturers a complete end-to-end solution for 3D printing precious metals — from the design to beautiful, customer-ready finished quality jewelry. A new video released with Christian Tse showcases how this Monrovia, California-based luxury design and manufacturing house is using the Desktop Metal Production System P-1 to reimagine its jewelry manufacturing.

“Desktop Metal’s Production System adds extraordinary value to our existing jewelry manufacturing processes, increasing efficiency of production, getting new designs to market faster, and offering our customers greater versatility and multiple styling options. We can actually print in precious metals in two hours what we do in two days with casting,” said Christian Tse. “In addition, creating jewelry with binder jetting is allowing us to consider new options to circumvent some of the supply chain challenges facing the fine jewelry industry. We can bypass shipping delays and mounting costs, as well as avoid duties, by printing the precious silver directly, as opposed to shipping the physical metal.

Neoshapes, a Swiss company based in Geneva, Switzerland, founded by experienced executives in the luxury goods industry, takes a unique end-to-end approach — from the production and supply of powder, to the printing and post-processing of precious metals components, as well as consultancy services to enable industry players to easily transition their production processes to binder jet technology.

“Binder jetting opens up new perspectives for the luxury industry, even more now with the qualification of precious metal alloys, giving further leverage to develop and produce creative products from a single file, leaping forward into the digital supply chain. The time to market for new creative products is also reduced considerably, allowing brands to better meet demand while maintaining minimal inventories,” said Stéphane Vigié, Neoshapes co-founder.

Binder Jetting Ushers in a New Era for Jewelry Manufacturing
The Production System’s Single Pass Jetting (SPJ) technology, which delivers high-speed 3D printing of metals, enables jewelers to adopt an entirely digital and agile manufacturing workflow. Jewelers can have greater design flexibility and control, allowing designers and manufacturers to scale new designs previously impossible or difficult to produce without significant manual labour — such as chain link bracelets or necklaces, where the links can be 3D printed in place as one piece instead of being manually assembled one link at a time. In addition, jewelers can leverage AM for localized production, decreasing the reliance on long lead-time global supply chains and offering opportunities for onshoring manufacturing.

The benefits of additive manufacturing for luxury goods and jewelry applications are significant:

Customisation and Design Freedom at High Volumes
Up to tens of thousands of jewelry pieces per day can be 3D printed on the Production System, and manufacturers can produce the same pieces or customized, unique ones — all in a single build.

Digital Inventory Offers Greater Production Flexibility
By eliminating time-intensive techniques like casting, manufacturers can iterate and scale new designs easily — once a design is finalised, printing and production can begin immediately.
Manufacturers can also establish digital inventories, storing design files digitally to be made on demand, reducing working capital requirements.

Significant Reduction in Waste Material through Recycling and Reuse
With the Production System, substantially all of the loose powder recovered during the printing and depowdering process can be recycled and reused for subsequent prints, driving further cost efficiencies and reducing material waste.

To learn more about the Production System and printing in precious metals, visit: www.desktopmetal.com/production.

 

 

What You Missed:
Vingroup Collaborates With Intel To Develop Advanced Technologies
Hannover Messe 2022 : Schneider Electric’s Latest Innovations
Igus Unveils The World’s First Urban Bike Made From Recycled Plastic
Asia’s War On Inflation Targets Supply, Not Consumers
Schneider Electric “Singapore Green Pulse” Survey
How To Overcome Language Barriers In Manufacturing Factories
India’s Mahindra To Explore More Partnerships For EV Parts
A Microchip Timeline From 1959 To The Current Chip Shortage
A New Heat Engine With No Moving Parts Is Better Than Steam Turbine
Unloved Since Fukushima, Uranium Is Hot Again For Miners

 

WANT MORE INSIDER NEWS? SUBSCRIBE TO OUR DIGITAL MAGAZINE NOW!

Letter to the Editor
Do you have an opinion about this story? Do you have some thoughts you’d like to share with our readers? APMEN News would love to hear from you!
Email your letter to the Editorial Team at [email protected]
How The 3D-Printing Community Worldwide Is Aiding Ukraine
3D Systems And AIPMA Partner To Promote Adoption Of Additive Manufacturing In The Plastics Industry
Back To Top