Shadow technique improves measurement

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A measurement method uses the shadow cast by a small glass probe to infer the dimensions of tiny, microscale holes or other micrometre-sized components.

A measurement method developed by researchers working at the National Institute of Standards and Technology (NIST) uses the shadow cast by a small glass probe to infer the dimensions of tiny, microscale holes or other micrometre-sized components.

The technique may provide an improved quality control method for measuring the interior dimensions of fuel nozzles, fibre optic connectors, biomedical stents, ink jet cartridges and other precision-engineered products.

Designed to be implemented with the type of coordinate measuring machine (CMM) routinely used in precision manufacturing settings, the method uses a flexible glass fibre with a microsphere attached on one end.

The glass probe is attached to the CMM's positioning system, inserted into the part to be measured, and systematically touched to the part's interior walls in multiple locations. A light-emitting diode is used to illuminate the glass fibre. While the microsphere inside the part is not visible, the shadow of the attached fibre - with a bright band of light at its centre - shows the amount of deflection in the probe each time the part's interior is touched. A camera records the shadow positions.

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