Jewelry Casting With Castable Wax Resin: Insights From Designer and Goldsmith Abbas Saleh

in Interviews

Over the last decade, perception of 3D printing within the jewelry space has dramatically shifted. Hardware that was once viewed as experimental can now be found in the workshops of jewelers across the globe.

With intuitive, affordable 3D printing options readily available, the benefits of implementing additive manufacturing for jewelry design and investment casting are clearer than ever. High-quality stereolithography 3D printing is now accessible and scalable for jewelers at all levels.

To arm jewelers with the most consistent and reliable casting materials, Formlabs recently released Castable Wax Resin. Made up of 20% wax, the unique new formula allows a cleaner burnout protecting the most delicate of designs.

Castable Wax allows for a smoother burnout process.
Castable Wax was formulated to deliver smooth surface finish and increased part strength for printing high-detail, intricate parts on the desktop.

In this post, designer and goldsmith Abbas Saleh shares his insights and tips working with the new resin. Previously involved in all steps of jewelry production for companies like Adidas, Red Bull, and the National Art Museum in Vienna, Saleh has perfected the art of combining digital technology with trusted goldsmithery techniques.

Webinar: How to Print and Cast With Castable Wax Resin

Want to learn about Castable Wax Resin in more detail? Watch the on-demand webinar to hear directly from Saleh about the 3D printing applications for jewelry production, and how the technology can complement your current workflow. Here you’ll learn about everything from design prototypes and client try-ons, to vulcanization and casting masters.

[Webinar] How To Print and Cast Jewelry With Castable Wax Resin

Watch the On-Demand Webinar Recording

Cleaner Burnout, Less Finishing With New Castable Wax Formula

As a trained goldsmith and a mentor in CAD software, Saleh understands each stage of jewelry production and knows how to integrate digital tools like 3D modeling and printing into traditional craftsmanship. Frustrated with resins expanding during the burnout process and breaking the delicate details of his molds, Saleh tested the latest Castable Wax formulation on his Form 2 stereolithography (SLA) 3D printer.

He found the unique properties of the resin protected the delicate shape of his molds throughout the burnout process, helping him produce beautiful, intricate designs in a fraction of the time. As a keen advocate of 3D printing, Saleh appreciates the benefits that printing castable parts in-house can bring to a jewelry business–in cost, time, and helping to maintain a competitive edge.

When investing in bespoke jewelry, customers are always looking for ‘that edge’. Something that sets your jewelry apart from what the larger brands are able to offer. Being a part of the whole process gives your clients a personal, customizable feel. And it’s easier to adapt designs during client try-ons if their needs change,” Saleh said.

Same Day Castings, No Post-Cure

What sets this material apart from other casting resins is its high green strength, which allows users to print delicate filigree and pavé geometries without the need for post-curing. This is the result of the wax composition of the resin, which allows for a cleaner burnout and helps protect each detail of the mold.

The new resin also allows for a quicker workflow. Castable Wax Resin is suitable for a standard burnout schedule, or a short 8-hour burnout schedule using strong investments like R&R Ultravest Maxx, which are developed specifically to withstand faster heating for photopolymer casting.

Direct Investment Casting With Castable Wax Resin and the Form 2

A complete setup for 3D printing Castable Wax: the Form 2 desktop stereolithography 3D printer, Form Wash automated wash station, a cartridge of Castable Wax Resin, and a build platform of printed parts.
A complete setup for 3D printing Castable Wax: the Form 2 desktop stereolithography 3D printer, Form Wash automated wash station, a cartridge of Castable Wax Resin, and a build platform of printed parts.

Designing Models for Casting With Fusion 360 and PreForm

For Saleh, designing a ring usually begins with selecting the gem. He starts by measuring and photographing the stone and reconstructing the shape in Fusion 360. This ensures the final shape fits perfectly and there are no costly surprises further down the line. To accurately capture all the measurements of the stone, Saleh suggests jewelers either invest in a 3D scanner, or visit a stonesetter who can do this on their behalf.

Next, Saleh creates several different iterations of the same design–this is the perfect time to collect input from client and colleagues, as changes can be made seamlessly before starting the production process.

Having mentored designers and jewelers across the world, Saleh understands that transitioning to a digital workflow can be a large investment of time at first. That is why Fusion 360 is his software of choice–it’s user-friendly and integrates seamlessly with Formlabs PreForm print preparation software.

“Why do I choose Fusion 360? It's beginner-friendly: even if you have no experience in Rhino, you can pick things up pretty quickly. And as a software teacher I know that it's a big step to jump into the 3D world”  Saleh said.

Saleh next imports file directly from in Fusion 360 to PreForm. With PreForm, jewelry designers can achieve the best possible print by selecting the optimal layer resolution and print speed for the design. Saleh recommends 50 microns for faster prints, or 25 microns to capture finer details in Castable Wax Resin.

Saleh's printed design in Castable Wax
Saleh's design printed in Castable Wax.

Want to know more about using supports in PreForm to prepare your design for printing? Watch the webinar for a step-by-step guide.

3D Printing Parts After Preparation in PreForm

Now the design is ready to print. For this step, you'll need the Form 2, a cartridge of Castable Wax Resin, and a Form Wash if you’d like to clean your parts more effectively.

“Printing with a Form 2 is really simple - you insert the resin tank, the build platform, and the cartridge, and then all you need to do is press print,”  Saleh said.

Once the part is ready, remove from the build platform and lift it into the Form Wash. Form Wash is an automated cleaning solution, agitating a tank of isopropyl alcohol to clean your prints. To ensure you don’t over-wash your parts, the platform automatically raises your parts after they're done to prevent them from becoming soft.

Now the printed part is ready to cast using the traditional workflow. Watch the webinar for Saleh's top tips on preparing the casting tree, preparing for the burnout and to polish and finish the models.

Cleaning the ring before final stone setting.
Saleh cleaning the ring before the final stone setting.

Saving Time and Production Costs With In-House 3D Printing

For Saleh, it’s not just about being innovative and improving his current workflow. Bringing 3D printing to the forefront of his jewelry business has helped him significantly reduce production time and cut costs. On average, a ring produced in-house by Saleh’s Form 2 3D printer costs him a fifth of what it would to outsource.

“Printing and casting in-house is the only way for me to stay flexible as a jeweler. Traditional workflows don’t allow for last minute iterations as on your design process you have to sketch and then create what you’ve drawn. Having a Form 2 allows me to limit the time I spend making changes to the jewelry, and saves four days each time I produce a small tree of 10-15 rings.“ Saleh said.

Advanced materials and affordable in-house 3D printers are changing the way jewelry manufacturers and designers work, bringing industrial quality to the desktop and making it easier to produce and fit complicated geometries that once required hours of meticulous labor.

If you’d like to explore Castable Wax Resin’s crisp accuracy and smooth surface finish firsthand, request a free sample pavé ring.

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Our materials library is stacked with over a dozen advanced resin materials — and growing — for everything from product design prototyping to printing retainers for dental patients. Get a sample part in the material that best suits your application.

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