ProJet 3600 wax for the jewelery industry
Vowsmith produces customized rings relying on the advanced features of the ProJet 3600 wax
Jewelry wasn’t the first thing on Charles-Olivier Roy’s mind when he decided to build a mass customization business around 3D printing. But he realized if he was going to set up what he calls a “mass personalization” business, he needed to provide a premium product, one that taps into a higher realm of emotion.
“I knew nothing about jewelry, but I quickly understood it would be a perfect playground for me,” says Roy, an industrial designer who previously founded Artisans du Passage, a company that merges art with 3D digital technologies. “Most jewelry is bought to express emotion, which brings with it a higher price. And if there is a place ready for a revolution, it’s the jewelry workshop. Lost-wax casting, one of the oldest technologies in metallurgy, hasn’t changed much since ancient Egypt.”
The result of Roy’s philosophy, technological experience and intense planning is Vowsmith, founded in September 2014. Vowsmith is a digitally driven business that enables couples to purchase wedding rings directly from an e-commerce website and customize them with fingerprints of their beloved.
The key to making Vowsmith scalable is the 3D Systems ProJet 3600 wax printer, a machine that, according to Roy, “provides the highest level of detail as well as the highest yield available in real wax, which is ideal for optimal ring casting.”The key to making Vowsmith scalable is the 3D Systems ProJet 3600 wax printer, a machine that, according to Roy, “provides the highest level of detail as well as the highest yield available in real para n wax, which is ideal for optimal ring casting.”
During the last decade, 3D printing has become fairly common in the jewelry industry. But typically it is used for prototyping a master model that is mass-produced by traditional means. Vowsmith puts 3D printing at the heart of its production.
“The ProJet MJP Series is the keystone of our manufacturing process,” says Roy. “First, it’s a real wax printer. This means that there is no possibility of casting faults due to ashes or a cracked shell due to thermal expansion. Real wax burns out completely at low temperatures and in less time than resin-based systems, so we save on energy and improve yield.”
The VisiJet M3 Prowax material used by the ProJet MJP Series produces high-definition parts with crisp details and a smooth surface finish. The support material is easy to remove in post-processing and preserves the ring’s delicate features.
“We don’t have to spend a second designing support structures for the 3D-printed rings,” says Roy. “We don’t lose productivity due to an unprinted part caused by badly supported areas. We don’t lose time repairing broken support surfaces.”
The large build volume (298 x 185 x 203 mm in high-de nition mode) and ultra-high-resolution output (694 x 750 x 1600 DPI; 16μ layers) of the 3D printer perfectly complement Vowsmith’s business model.
“The ProJet MJP 3600W Max has a massive build volume, delivers extremely high-resolution prints throughout the build bed, and can print at a speed with which no other equivalent 3D printer can compete,” says Roy. “We compete with mass production where every second counts, so we rely on the ProJet to deliver extremely high-detailed models with consistency at an unmatched yield.”
Fine-tuning and scaling the process
It currently takes about a week for Vowsmith to turn around the typical order, but Roy believes he can cut that time down considerably.
“It’s totally doable with today’s technology to receive a ring order in the morning, get it on the printer in the afternoon, cast it the next day, and ship for delivery the following day—72 hours from order to delivery. I could push that further: We could install printers all over the globe and feed them from our server. We could then solve the problem of international shipping for a high-value product.”
Roy has similar ambitious, but not unreasonable, goals for production volume. He expects Vowsmith to sell between 4,000 to 5,000 rings over the next year. But, the company is already capable of producing 35 to 40 rings per print run and complete three to four batches each day, which would deliver an annual capacity of around 50,000 rings.
There is also work done by hand that could be automated.
“Eventually we could print the casting tree completely, integrate mass finishing machines and even a CNC diamond and stone setter. And one promising technology for the future is direct metal printing (DMP); we’ve done some prototyping with DMP and have achieved very good results.”
Roy thinks his methodologies based on 3D printing could be transferred to other personalized products produced in fairly large quantities.
“We could upload any 3D model with any level of possible customization and be able to manage production without errors,” he says. “We think our infrastructure will continue to increase in value because it’s not based on physical inventory. We’ve coupled an in nite-productivity front end with an in nite-productivity back end.”
Roy believes that mass personalization is a movement evolving at exactly the right time.
“The Millennials are sick and tired of being served the same soup every day. They want to have their own product that re ects their own personality. This generation is shaping the future of retail.”
If the freedom of being able to acquire a personalized product created in a few days isn’t exciting enough, Roy says mass customization using 3D printing could even have a positive impact on the environment.
“It’s a business model where no inventory is produced, moved and stored before consumption. Could this be a valuable solution to the dramatic e ects the rst two industrial revolutions had over our planet”?