The National Physical Laboratory (NPL), the UK's National Measurement Institute, has developed a new range of three dimensional standards for verifying freeform coordinate measurement machines (CMMs). The standard allows the verification of portable and fixed non-contact coordinate measuring systems such as those employing laser scanning and fringe projection technologies, as well as those employing tactile sensors. It also helps evaluate the surface measurement capabilities of new scanning measurement technologies.
Items that are freeform are unconventional in shape or design, especially in being asymmetrical and irregular, but with a flowing outline. Freeform manufacturing projects include the development of more efficient engines for aeroplanes, drag reduction for cars, longer lasting prosthetics and reverse engineering of archaeological finds to learn about their provenance.
Traditionally such forms have proved difficult to measure practically with optical systems of the type used on production lines or away from the factory. It is often difficult to provide measurement traceability for mass produced freeform shapes, limiting innovations in freeform manufacturing. With the right measurement facilities, freeform brings many advances to the manufacturing sector.
NPL FreeForm dimensional standards ensure measurement traceability within freeform manufacturing industries. The standards are complex reference artifacts which provide traceability routes for a range of diverse measuring techniques.
Each NPL FreeForm standard bears several geometrical forms that are blended to form a single surface that tests various aspects of a scanning instrument's performance. Ceramic tooling balls or hemispheres on each corner of the standards aid registration. The precise nature of the surface employed by the standard allows traceability to be transferred to the freeform measurement technology. It is also possible to incorporate designed deformation to the surface, typically 100 Ám in size.
The Freeform development project was funded by the National Measurement Office. NPL worked with industry on a number of freeform measurement projects to identify the relevant measurement requirements. These highlighted many errors in existing optical scanning measurement systems, which the final artefact was designed to overcome.
The FreeForm standards are available to buy directly from NPL and are each supplied with a calibration certificate, the relevant CAD model and traceable measurement data files. It also forms part of NPL's calibration consultancy offer, which can be carried out onsite or at NPL.
The NPL FreeForm standards are available in various sizes. They have linear base dimensions nominally 37.5mm, 75mm, 150 mm and 300mm and bearing four ceramic tooling balls.
NPL's Centre for Freeform Measurement was set up to address the measurement issues around freeform manufacturing. This industrially-focused centre provides leading measurement expertise and high precision measuring facilities such as laser scanners, white light fringe projectors and other coordinate measuring systems.
More information about NPL's Freeform Centre can be found at: http://www.npl.co.uk/freeform
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