Stainless steel, heavy metals and more

TOMRA expands its Dynamic LIBS application range

TOMRA Recycling, one of the leading providers of sensor-based sorting solutions for the global recycling industry, is expanding the application range of AUTOSORT™ PULSE beyond aluminum alloy separation. The Dynamic LIBS-based sorting system can now be applied to a broader range of material streams, including stainless steel, heavy metals, magnesium and incinerator bottom ash (IBA).

AUTOSORT™ PULSE has set the industry benchmark for aluminum alloy separation and is now unlocking new possibilities in other metal sorting applications
© TOMRA

AUTOSORT™ PULSE has set the industry benchmark for aluminum alloy separation and is now unlocking new possibilities in other metal sorting applications
© TOMRA
Since its launch in 2023, TOMRA’s AUTOSORT™ PULSE has established itself as the benchmark in industrial-scale aluminum alloy separation. Using Dynamic LIBS (Laser Induced Breakdown Spectroscopy), the system identifies materials by their elemental composition and enables precise sorting tasks such as separating aluminum into different alloys, including the 5xxx and 6xxx classes.

Building on this proven performance in aluminum, TOMRA has expanded the system’s application range to include additional material streams where precision sorting can unlock new value.

One system, multiple applications

For recyclers, the expanded application range of AUTOSORT™ PULSE presents new opportunities. Instead of being limited to a single application, operators now use one machine for multiple sorting tasks without the need to invest in additional hardware.

AUTOSORT™ PULSE supports applications such as heavy metal sorting (left), IBA upgrading (middle) and stainless steel grade separation (right)
© TOMRA

AUTOSORT™ PULSE supports applications such as heavy metal sorting (left), IBA upgrading (middle) and stainless steel grade separation (right)
© TOMRA
The key enabler is TOMRA's Dynamic LIBS technology. Its dynamic laser setup allows AUTOSORT™ PULSE to analyze the elemental composition of each object and adapt to different scrap conditions. By repeatedly targeting the same point on the material, the laser effectively drills through coatings, paint, oxidation or dust to identify the composition underneath, giving it an advantage over conventional LIBS or XRF solutions. This is particularly relevant for heavy metals and IBA-derived streams, where surface conditions often make separation more challenging.

Heavy metals: more value through precise sorting

In mixed heavy metal streams, the system can now identify and separate copper, brass, zinc, stainless steel and other valuable fractions. It can also distinguish between specific material characteristics, such as zinc sheets from Zamak or coated and non-coated material.

One operation already putting these capabilities into practice is Kaplan Pirinç Çubuk A.Ş. in Türkiye. The brass smelter invested in the AUTOSORT™ PULSE specifically to sort brass into different grades for its European and non-European customers.

With Dynamic LIBS technology, AUTOSORT™ PULSE analyzes metals by their elemental composition, enabling precise sorting beyond surface conditions
© TOMRA

With Dynamic LIBS technology, AUTOSORT™ PULSE analyzes metals by their elemental composition, enabling precise sorting beyond surface conditions
© TOMRA
"Most of our brass input is coated and we need to identify specific elemental compositions,” says Safa Tayyip Topçuoğlu, Owner of Kaplan Pirinç Çubuk A.Ş. “After seeing the great test results we achieved with TOMRA, we knew the AUTOSORT™ PULSE was exactly what we needed. With its Dynamic LIBS technology, we can look deeper into the material and precisely target the elements that we want. This helps us get more value out of our scrap and reduce the amount of expensive alloying material we would otherwise need to add. The result is high-value brass at a lower cost, which gives us a real competitive advantage.”

Stainless steel, incinerator bottom ash and magnesium

For stainless steel applications, AUTOSORT™ PULSE can separate different grades, including 316, 304 and 201 from mixed stainless steel streams, enabling recyclers to create more specific and higher-value output fractions from material they already process.

The system can also be applied to incinerator bottom ash (IBA), the mineral residue left after municipal waste incineration. After initial processing, IBA can yield complex metal streams such as mixed aluminum and mixed heavy metals. AUTOSORT™ PULSE enables further separation of these fractions, including low- and high-silicon 6xxx series aluminum alloys, as well as copper and brass from mixed heavy metal streams. This turns material that was once considered difficult to upgrade into valuable metal fractions and supports a higher-quality output from challenging input.

Another new application is magnesium separation from floated super-light fractions. By reliably distinguishing magnesium from other light metals, AUTOSORT™ PULSE helps recyclers achieve cleaner output fractions and improve material quality.

Turning flexibility into resilience

Material availability can change quickly, and metal markets are often difficult to predict. Prices and margins can shift significantly, and recyclers need the flexibility to focus on the material streams with the highest demand and value. With AUTOSORT™ PULSE, operators can switch between streams and adapt sorting whenever they need to make the most of every operational hour and capture value where it matters most.

To support this, TOMRA trains customers' teams to adapt and fine-tune sorting programs themselves. Operators can react quickly when material streams change, test new input materials before committing to larger purchases and keep production stable even when market conditions shift.

"AUTOSORT™ PULSE has proven itself in aluminum alloy separation, and we have continued to develop what the technology can enable," said Tom Jansen, VP, Head of Segments at TOMRA Recycling. "Today, our customers can use one system across several material streams, from stainless steel to IBA, heavy metals and more. What changes is the application, not the technology. That flexibility turns a single investment into real operational and economic value."

www.tomra.com/de-de/waste-metal-recycling

www.tomra.com

Related articles:

Issue 04/2023 Next milestone in the metal segment

AUTOSORTTM PULSE with dynamic LIBS technology

As the metals industry strives to increase recycling rates to reduce both energy consumption and the use of new materials, the use of best-in-class sorting technology is indispensable. They recover...

more
Issue 02/2025 Pioneering project

Sorting of aluminium alloys

The German metal recycling company has installed an AUTOSORT™ PULSE unit at its metals sorting plant in southwestern Germany as part of a research project funded by the German Federal Ministry for...

more
Issue 02/2024

TOMRA Recycling

TOMRA Recycling will further strengthen its position as a leader in resource recovery when the company reveals its latest technology portfolio at IFAT 2024. TOMRA’s experts will highlight the...

more