Wednesday, 30 July 2014
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Camera-based quality control to detect battery flaws

Researchers in the US have created a new tool to detect flaws in lithium-ion batteries as they are being manufactured, a step toward reducing defects and inconsistencies that affect battery life.

The electrodes - anodes and cathodes - are copper on one side and coated with a black compound to store lithium on the other. Lithium ions travel from the anode to the cathode while the battery is being charged and in the reverse direction when discharging energy.

The material expands as lithium ions travel into it, and this expansion and contraction causes mechanical stresses that can eventually damage a battery and reduce its lifetime, said Douglas Adams, Kenninger Professor of Mechanical Engineering and director of the Purdue Center for Systems Integrity.

The coating is a complex mixture of carbon, particulates that store lithium, chemical binders and carbon black. The quality of the electrodes depends on this coating (or battery paint) being applied with uniform composition and thickness.

‘A key challenge is to be able to rapidly and accurately sense the quality of the battery paint,’ said James Caruthers, Reilly Professor of Chemical Engineering and co-inventor of the new sensing technology.

The Purdue researchers say they have developed a system that uses a flashbulb-like heat source and a thermal camera to read how heat travels through the electrodes. The so-called flash thermography measurement takes less than a second and reveals differences in thickness and composition.

‘This technique represents a practical quality-control method for lithium-ion batteries,’ Adams said in a statement. ‘The ultimate aim is to improve the reliability of these batteries.’

Findings are detailed in a research paper being presented during the 2013 annual meeting of the Society for Experimental Mechanics between June 3-5 in Lombard, Illinois. The paper was written by doctoral students Nathan Sharp, Peter O’Regan, Anand David and Mark Suchomel, and Adams and Caruthers.

The method uses a flashing xenon bulb to heat the copper side of the electrode, and an infrared camera reads the heat signature on the black side, producing a thermal image.

The researchers found that the viscous compound is sometimes spread unevenly, producing a wavelike pattern of streaks that could impact performance. Findings show the technology also is able to detect subtle differences in the ratio of carbon black to the polymer binder, which could be useful in quality control.

The technique is also said to have revealed various flaws, such as scratches and air bubbles, as well as contaminants and differences in thickness, factors that could affect battery performance and reliability.

‘We showed that we can sense these differences in thickness by looking at the differences in temperature,’ Adams said. ‘When there is a thickness difference of 4 per cent, we saw a 4.8 per cent rise in temperature from one part of the electrode to another. For 10 per cent, the temperature was 9.2 per cent higher, and for 17 per cent it was 19.2 per cent higher.’

The thermal imaging process is ideal for a manufacturing line because it is fast and accurate and can detect flaws prior to the assembly of the anode and cathodes into a working battery.

‘For example, if I see a difference in temperature of more than one degree, I can flag that electrode right on the manufacturing floor,’ Adams said. ‘The real benefit, we think, is not just finding flaws but also being able to fix them on the spot.’

Purdue has applied for a patent on the technique. 

This thermal image was recorded using a new tool developed at Purdue that detects flaws in lithium-ion batteries as they are being manufactured, a step toward reducing defects and inconsistencies in the thickness of electrodes that affect battery life and

Source: Purdue University

This thermal image was recorded using a new tool developed at Purdue that detects flaws in lithium-ion batteries as they are being manufactured, a step toward reducing defects and inconsistencies in the thickness of electrodes that affect battery life and reliability


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