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Freeform Injection Molding: The next generation of injection molding

Freeform Injection Molding: The next generation of injection molding

Prototyping is the starting point of the innovation cycle. In an age where new innovations pop up every other minute, 3D printing has established itself as one of the most popular prototyping techniques. But have you ever considered injection molding for prototyping? 

In our conversation with Lasse Staal, CEO and co-founder of Danish company, Addifab we discussed their transformative prototyping technique of Freeform Injection Molding (FIM) which has enabled production of prototypes using injection molding.

“The 3D-printing industry has made significant developments in advancing additive manufacturing and it is getting quite popular for prototyping and low volume productions. We at Addifab were looking at using 3D-printing to fix a key flaw in the injection molding value chain - The expensive tooling requirement and the infeasibility of low volume productions,” began Lasse.

Injection molding is a highly efficient method for manufacturing high volume parts. But it has a well-known limitation. "The tool can be expensive and time-consuming, particularly when redesigns are required," continued Lasse. FIM is overcoming these challenges by making injection molding sustainable for low volume production and prototyping.

Combining best of both worlds

In response to those limitations, Addifab developed Freeform Injection Molding (FIM), which combines the short lead-times, low start-up costs, design flexibility and intricacies of 3D printing with the accuracy, versatility, and superior finish of injection molding. In FIM, soluble molds are 3D printed according to the required geometries, and the soluble molds enable production of complex parts, previously only possible through 3D printing.

Startups can benefit from FIM

FIM is a great way for startups to prototype with certain materials that are hard or even impossible to 3D print. This is especially relevant for companies that want to eventually scale up their production. “We have a couple of customers who started their business based on FIM. So, it is quite fascinating for us to see companies that wouldn’t have existed without our technology,” explained Lasse.

Addifab has also started offering their FIM service for personal applications. They collaborated with and manufactured a prosthetic glove for a world class Paralympic table tennis player. With FIM, Lasse and his team manufactured a lightweight, high-performance glove with high strength and high stiffness, unachievable by direct 3D printing. 

Another impressive use case of FIM is that of a startup manufacturing clothing buttons made from 100% recycled fishing nets. Finisterre, a UK based company are producing 3D printing filament and injection molding pellets out of this recycled material. In order to scale production, the company needed to shift from 3D printing towards injection molding. This is where Addifab supplied them with their technology and helped them scale production at an attractive budget.

FIM at Mitsubishi Chemical Group

MCG Advanced Materials offers customers, the option of prototyping using Freeform injection Molding. The technology, known as SPRINT (Soluble PRinted INjection Tooling ), uses Addifab’s technology to offer a high flexibility in production of prototypes with the material that would be eventually used during scaling of production. MCG Advanced Materials Division's manufacturing facilities in Belgium, USA and Japan. With the SPRINT technology, customers have access to CNC machining, 3D printing tooling, metal injection molding, all under one roof.

The journey ahead

We asked about Lasse’s vision of Addifab for the future. Lasse answered, “Addifab in 2022 is in a very good position to start expanding the scope of offerings and internationalization by partnering with other companies with the same goals. We are collaborating with the MCG Advanced Materials Division by supporting the deployment of FIM as a service. With our recent collaboration with Nexa3D, we can now support a wider scope of applications. So far, we have demonstrated the applicability of FIM in several applications such as manufacturing of medical devices, drone components, automotive parts and other customized applications which can be produced in a batch of 1.”

Addifab is positioned well to support developers, entrepreneurs and innovators who are striving for more sustainable, cost efficient and flexible product development. 




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