Titanium powder by Sandvik makes additive manufacturing even more sustainable

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Sustainable manufacturing is possible. Powder metallurgy has since many years been labeled a ‘recognized green technology’, since it improves sustainability across a variety of industries. And the good news is that titanium powder, with its unique material properties, makes it even more sustainable when used in game-changing technologies like additive manufacturing or 3D-printing.

There are two fundamental aspects that define sustainable manufacturing: the actual manufacturing process and the impact of the product produced. Powder based, net-shape technologies like additive manufacturing (AM) and metal injection molding (MIM) have significant effects on both aspects.

When printing a component, approximately 95 percent of the powder you put into the process is used; the rest can be recycled in a new melt.

Take the excellent example of Sandvik’s recently launched Osprey® titanium powders, supporting the growing trend of 3D printing of titanium parts – and the shift towards sustainable manufacturing and lighter components. The additive process results in far less material waste than traditional subtractive techniques, while also encouraging new levels of design freedom through the availability of more extensive topology optimization. This is opening up the use of titanium in other industries than aerospace and medical – such as automotive and tooling. Sandvik’s own Lightweight CoroMill® 390 is an excellent proof of the latter, where the additive version of the mill is more than 80% lighter and up to 200% more productive, which of course is a true customer value – but also an important environmental advantage.

The additive version of CoroMill® 390 milling cutter has resulted in optimized design, 80% lower weight and up to 200% increased productivity.

“By combining additive manufacturing with a light and strong material like titanium, the sustainability advantages can be enormous. Weight reduction is for example a constant key issue for the aerospace industry, driven both by fuel cost and carbon footprint. The same is true for cars and trucks, and everything else that moves. Each kilogram of weight reduction on an airplane saves 3,000 US dollars per year in fuel – and can make a great difference for the planet,” says Keith Murray, VP Global Sales, Sandvik Additive Manufacturing.

An extensive list of obvious sustainability advantages

As already stated above, when it comes to the manufacturing process some of the sustainability advantages are obvious. But the list is extensive. In the “Powder Metallurgy – Intrinsically Sustainable” report, the Metal Powder Industries Federation compares the 17 manufacturing steps that are required to produce a truck gear using subtractive machining with the mere 6 that are required using a powder metal-based process – each step eliminiated bringing a saving in energy consumption.

VP R&D and Operations, Sandvik Additive ManufacturingNet-shape technologies also make it possible to combine several components into one – reducing assembly steps and thereby energy consumption. In addition, it often minimizes the use of cutting lubricants and cleaning fluids.

But one of the most obvious sustainability arguments for additive manufacturing is that it cuts down on material waste.

“When printing a component, approximately 95 percent of the powder you put into the process is used; the rest we can recycle in a new melt. Compare that to traditional manufacturing where you start off with a block of material and remove large amounts of chips,” says Mikael Schuisky, Head of Business Unit Additive Manufacturing within Sandvik.

Even though the chips from traditional manufacturing are collected and sent for recycling, the carbon footprint is substantially higher, due to heavier transportation and a much larger amount of material to recycle. This has a significant energy impact. Melting steel in the efficient scrap-based electric Sandvik steel mill requires approximately 500 kWh per ton steel. This is significant when compared to the resource efficiency of powder-based technologies like additive manufacturing.

To reach the climate goals, we must make significant changes to the way we manufacture products. A powder based net-shape technology like additive manufacturing is one of those revolutionary methods.

Another environmental advantage is that the actual production can be undertaken locally, which removes further steps in the supply chain – and reduces transportation.

“You go directly from a digital design to a three-dimensional product. And, if you locate production close to where it’s needed, you can cut down on storage, packaging and transportation of parts,” Mikael Schuisky says.

Plays a significant role in reaching UN’s sustainability development goals

In the long term, powder-based technologies might play a significant role in reaching the United Nation’s Sustainable Development Goals, according to Eduard Hryha, researcher and project manager for the Centre for Additive Manufacture – Metal (CAM2) at Chalmer’s University of Technology in Sweden.

“To reach the climate goals, we must make significant changes to the way we manufacture products. A powder based net-shape technology like additive manufacturing is one of those revolutionary methods,” he says.

Amelie Norrby, a young materials engineer in Sandvik, chose to work with metal powder and additive manufacturing because she thinks it’s one of the most disruptive technologies to have emerged in recent years. She also thinks its inherent sustainability makes it an important technology for the future.

Amelie Norrby, additive manufacturing engineer at Sandvik.

“It is just fantastic and a great advantage to be able to be part of the ongoing additive transformation journey. What we do and develop today will most likely have a huge impact in the future, not least from a sustainability perspective”, she says.


A recognized green technology

  • Powder metallurgy is a recognized "green" technology.
  • Almost no waste in shaping of parts – and the surplus powder can be reused.
  • The net-shape capability of powder metallurgy (in applications like Additive Manufacturing or Metal Injection Molding) means that great energy efficiency can be achieved, by eliminating manufacturing steps.
  • Our Osprey® metal powders contribute in making our customers’ processes and end-products more sustainable.
    • Eliminating waste (e.g. when printing a component, about 95% of the powder is used; the rest can be recycled in a new melt).

    • Possibility to produce lighter components – reducing fuel consumption and
      CO2-emissions in e.g. aerospace or automotive.

    • Possibility to merge several components into one – reducing assembly steps and thereby energy consumption.

    • Minimizes use of cutting lubricants and cleaning fluids.

    • If you locate production close to where it’s needed, you can cut down on storage, packaging and transportation.

  • Part of the raw material for our Osprey® metal powders consist of recycled scrap metal – and the manufacturing is based on 100% renewable energy.

MAKE THE SH/FT​

sust_goals_2030.svgSustainable manufacturing is possible – and powder metallurgy is a “recognized green technology”. Sandvik Additive Manufacturing is committed to use engineering and innovation to make the shift that will drive more sustainable manufacturing, materials and solutions. Metal powder based technologies like additive manufacturing and metal injection molding already improve sustainability across a variety of industries – and the future potential is enormous.

Our aim is to make sustainability a part of every aspect of our company, delivering value for employees, customers and suppliers. A set of targets have therefore been established under four key headings; Circularity, Climate, People and Fair Play – with the aim to deliver these by 2030.

These initiatives follows the UN’s Sustainable Development Goals.​

We call our sustainability journey:
MAKE THE SH/FT​

Read more about our Sandvik's sustainability goals for 2030.

17-sustainable-development-goals_880x480.png


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