Home Materials Sandvik introduces 3D printed components in cemented carbide

Sandvik introduces 3D printed components in cemented carbide

Sandvik continues to expand their additive offering through introducing 3D printed cemented carbide – with wear-resistant properties. This is enabled by a
unique powder, crafted through a patented process developed by the company’s experts along the additive value chain.

With 160 years of materials expertise and a wide range of metal powders on the
market, Sandvik has been working with cemented carbide since 1932. Today, Sandvik is a provider of hard materials, offering for instance metal cutting- and mining tools such as
turning inserts, end-mills, and drill bits. Now, the materials authority is broadening its offering to also include 3D printed components in cemented carbide.

Cemented carbides have a unique character as a result of their composite structure – a
wear-resistant phase bonded together by a ductile binder metal – and are widely used across multiple industries such as metal cutting, agriculture, food, and oil and gas. Due to its inherent hardness, cemented carbides can be challenging to machine, not least in complex geometries. Leveraging their century-long materials expertise, Sandvik can now offer 3D printed cemented carbide on a commercial scale – based on a tailor-made powder attained through a proprietary process – with the design freedom, decreased material waste, and fewer replacements that comes with additive manufacturing technology.

In their “Plan it, Print it, Perfect it” approach to additive manufacturing, Sandvik states printing is just one of the seven steps you have to master in order to succeed with the
industrialization of AM – and that obtaining the most optimal material, tailor-made for your AM process and end component, is the first and perhaps most important step.

Anders Ohlsson, Lead Product Manager at Sandvik Additive Manufacturing, comments:
“The most critical component in our process is working with powders that have the just-right properties. Above all, high density crucially impacts the quality achievable in terms of
material properties and geometry. Sandvik has developed both a powder and a process that are unique. My view is that with commercial powders, you can make things that look cool – but don’t really work. Our powders are optimized to print components that look great, work well – and are fit for use in actual applications, demanding environments, and serial production. It’s also well worth mentioning the ability to 3D print cemented carbide speeds up our time-to-market rather dramatically. Prototyping used to take 6-12 months – and now our lead time to date is a matter of weeks.” Anders Ohlsson continues:
“Cemented carbide is one of the very hardest, if not the hardest material available in 3D
printed shape as of today. When implementing additive manufacturing into your business,
you basically eliminate all previous design restrictions – enabling you to focus on designing
components based on operational needs and requirements, without having to adapt to a
specific shape or form. One example is this wire drawing nib from a recent R&D project in
our workshop. The closed loop spiral coolant channels enable efficient cooling of the nib,
while the wire remains dry. This would have been impossible to achieve without additive
manufacturing.”

A key differentiator compared to other hard materials is the fact that these alloys are often brittle, to some extent – while cemented carbide, with its matrix structure consisting mainly of cobalt and tungsten carbide, is uniquely tough. Thanks to the extreme durability of the material, the printed components are well suited for most industries looking to optimize production efficiency – including those operating in challenging environments.

Mikael Schuisky, VP and Head of Business Unit Additive Manufacturing at Sandvik, says:
“The main enabler behind us continuously building on our additive offering is the fact that at Sandvik, innovation never stops. Thanks to our longstanding experience in materials
technology paired with our expertise along the additive value chain, made even stronger by our partnership with the BEAMIT Group, we can innovate at a speed few others can. This makes us uniquely positioned to drive the shift toward the industrialization of 3D printing, and prove sustainable manufacturing isn’t just possible – it’s already happening. 3D printing in cemented carbide is a natural next step for us having perfected these materials for decades, and we are very pleased to offer additively manufactured components that can revolutionize the performance throughout our customers’ businesses.”

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