Promotion SpA is a well-known supplier to the luxury jewelry and watch industry. The company in Vicenza, the main Italian center for the gold jewelry and watchmaking components industry, has become an important partner for these brands when it comes to the manufacturing of watch bracelets and accessories. “We control the entire process,” says Federica Tiso, R&D Material Scientist at Promotion SpA. “From design and prototyping, through manufacturing, quality control, and logistics. Together with the competence and the skills to develop and manufacture customized bracelets, we can offer our customers a complete solution.”
Promotion SpA has embraced 3D printing to shorten development time and ensure the quality of each bracelet. In 2014, they bought their first SLM machine for 3D printing bronze and steel, both for prototyping and tooling. They then acquired a second 3D metal printer, specifically for printing with pure gold. In 2019, the first DLP printer was introduced at the Promotion facility to create tooling from liquid resins.
We accompany our customers in a professional manner throughout the entire project - from planning and design to the prototype or the production of a complete series. Combining our 3D printing processes with conventional component processing, post-processing and surface refinement of the prototypes, small series or even a trade fair exhibit is our daily business. Since the company was founded in 1995, our experienced team in Gross-Gerau has made a name for itself well beyond the borders of the Rhine-Main area. We are one of the leading service providers for everything to do with 3D printing and have more than satisfied customers from a wide variety of industries - from the automotive and consumer goods industries to mechanical engineering and companies from the medical technology sector.
Alex Di Maglie
Managing Director, 4D Concepts
Our products are highly customized and manufactured in small batches. This leads to the need to change often the tools used for assembly or polishing. Every bracelet undergoes a very tough quality and mechanical test, so we also need tools to simplify this important step.
Federica Tiso
R&D Material Scientist, Promotion SpA
Each tool has unique requirements. Tools for lab tests must withstand an extremely high number of cycles without warping or breaking. Polishing tools cannot spoil too fast, and assembly tools must have a smooth surface to avoid scratches on the workpieces.
Most consumer-level FFF 3D printers cannot print brackets capable of supporting exceptionally heavy weights. Common filaments like PLA and ABS are durable enough for prototypes and low-impact applications, but it takes a much stronger material to guarantee high performance in the heat and humidity of Suriname.
During a military exercise in South America, crew members needed brackets to support a 20 kg signal amplifier so it could be mounted near the top of a 25-meter pole. This placement reduced the need for long cables and boosted the antenna signal. Without the necessary brackets on hand, the crew used an INTAMSYS printer to create them out of PEKK-CF, a high-performance material requiring extrusion temperatures of at least 350°C. Weaker materials would have buckled under the heavy weight and compromised safety.
A naval ship or submarine contains numerous valves for regulating pressure and fluid flows, controlling everything from fresh water to hydraulic systems. These valves have wheels that allow manual adjustments and are regularly removed for cleaning and maintenance. However, they sometimes break or get lost, necessitating spares.
Due to the diversity in valve wheel types and sizes, DMI workers have been using their INTAMSYS 3D printers to fabricate wheels on demand rather than carrying numerous prefabricated aluminum/steel spares. Valve wheels printed in high-strength materials are durable, resistant to overheating, and can even be installed permanently.
Ships and machines aren’t the only things that require maintenance on long missions. Crew members can suffer injuries in the field, and ships aren’t always within reach of a medical center.
DMI’s additive specialists have been collaborating with Radboud University Medical Center on a research project to develop custom orthotics. Using a mobile 3D scanning application developed by Belgian company Spentys, technicians can design and 3D print custom-fit orthotics to treat minor injuries. A variety of materials can be used, including PEKK, ABS, and PP. The devices can be adjusted over time with straps as the injury heals.
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