Bruker Launches Hand-held LIBS for Light Element Alloy Scrap Sorting

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Source: Bruker Corporation

KENNEWICK, Washington -- Bruker Corporation, a technology leader in hand-held, mobile and portable (HMP) metals and alloy analyzers, today introduces the newEOS 500 hand-held Laser Induced Breakdown Spectrometer (HH-LIBS). The EOS 500 is designed for high-speed analysis of Grade ID and chemistry in light element alloys containing Li, Mg, Al or Si. Speed, accuracy and repeatability are all attributes of the EOS 500. Compared with hand-held XRF, light element analysis with the EOS 500 is approximately 10x faster.

The EOS 500, suited for Quality Assurance (QA), metal fabrication and Positive Material Identification (PMI), was engineered for durability in the demanding conditions associated with the scrap recycling industry. The rugged design ensures that the EOS 500 will withstand field operation in nearly all environments, including humid and dusty conditions. In addition, the EOS 500 has a unique “Air-Flow Optics Shield”, which creates a continuous air shield in front of the optics in order to prevent dust build-up and to allow the EOS 500 to operate in the most demanding environments.

New EOS model 500 The EOS 500 uses a proprietary 1064 nm laser for low background laser ablation atomic emission spectroscopy. Traditional LIBS systems utilize a high energy, low frequency laser design for plasma generation, which results in high background noise, especially in the lower end of spectrum. Bruker’s 1064 nm laser generates strong atomic emission signals without creating high background emissions, hence eliminating the need for a complicated gating system. Utilizing this unique design, Bruker’s EOS 500 can easily analyze challenging elements, such as Si and Mg, at <0.1% concentration levels within seconds.

A multi-detector design allows the EOS 500 to cover an extended wavelength range from 170 nm to 720 nm, while maintaining outstanding resolution for a complicated metal matrix such as titanium. This broad wavelength range allows the detection of elements such as Li, Be, Cs, etc., which a single detector could not cover. In addition, the extensive wave-length range also allows the EOS 500 to utilize alternative wavelengths and hence achieve better accuracy by avoiding spectrum overlap.

'Advances in laser technology have enabled the miniaturization and portability of LIBS, which we have now commercialized in the EOS 500,' commented John Landefeld, General Manager of the Bruker Nano Analytics division's HMP business unit. 'Bruker moved quickly to provide this new hand-held system to our customers, enabling them to work faster and more profitably. LIBS analysis has an important place in metals industries, as a complementary technique to hand-held XRF.'

Each technique has advantages measuring certain elements and certain types of alloys. HH-LIBS is well suited to rapidly measuring the low atomic number elements like the alkaline (Li, Na, etc.) and alkaline-earth metals (Be, Mg, Si, etc.), but is not as well suited to measuring high atomic number elements such as the refractory elements (Nb, Mo, W, etc.). HH-XRF, on the other hand, is well suited to measuring high atomic number elements but is not well suited to measuring low atomic number elements like Mg, Al, Si. This makes HH-LIBS the preferable technique for light alloys such as Mg, Al and Ti alloys, while HH-XRF is the superior technique for measuring alloys like stainless steel and high temperature alloys. Customers in the metals industry can now choose the optimal hand-held measurement tool for each application.

Please contact us for additional information on the new EOS 500www.bruker.com/eos 
For more information on handheld XRF, please visit www.bruker.com/hhxrf

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