Monday, February 23, 2015

ISO 10360 - What’s so special about this CMM certification?

What is ISO 10360? And why is it so important? 
coordinate measuring machine
Essentially, this is the international standard of measurement verification that specifies the acceptance tests for verifying the performance of a coordinate measuring machine (CMM) used for measuring linear dimensions as stated by the manufacturer.

It also specifies the re-verification tests that enable the user to periodically re-verify the performance of the CMM.  These tests are vital in ensuring your CMM is and stays precise and accurate.

Even though this has been the accepted standard since 1994 internationally, not all coordinate measuring machine manufacturers abide by this certification.  There are other standards we mention below that are sometimes used. They are not only less rigorous than the ISO 10360 standards, but they make it impossible to compare one CMM to the next because it is not the standard.

coordinate measuring machine
Wenzel America is an accredited 17025 calibration provider, which means we provide 10360 calibrations on all CMMs we sell.  As a verified certifier, we can, and do perform these tests for our customers and ourselves.
Is there more than one ISO 10360 test?
Since 1994, ISO 10360-2 specifies three uncertainties: volumetric length measuring uncertainty (MPEE); volumetric probing uncertainty (MPEP); and volumetric scanning error (MPETHP). (MPE is the acronym for Maximum Permissible Error.)  Each of these is tested against the standard.

coordinate measuring machineA set of five calibrated gage blocks is used to verify a coordinate measuring machine’s MPEE. Measurements are taken in seven different locations (position and direction) within the CMM’s measuring volume for the test. For each of the seven locations, the length of each of the five gage blocks is measured three times for a total of 105 measurements. All 105 measurements must be within the stated tolerance specified by the manufacturer.

What does this mean for you?

By using a 10360 calibration for your company, it allows you to compare CMM performance between all the machines at your company, as well as, new machines you may desire to purchase. This world standard is more demanding than VDI/VDE 2617, ASME B89.

The table below shows all the various components of the ISO 10360 standards:
ISO 10360-1:2000
Geometrical Product Specifications (GPS) -- Acceptance and re-verification tests for coordinate measuring machines (CMM) -- Part 1: Vocabulary
ISO 10360-1:2000/Cor 1:2002
ISO 10360-2:2009
Part 2: CMMs used for measuring linear dimensions
ISO 10360-3:2000
Part 3: CMMs with the axis of a rotary table as the fourth axis
ISO 10360-4:2000
Part 4: CMMs used in scanning measuring mode
ISO 10360-4:2000/Cor 1:2002
ISO 10360-5:2010
Part 5: CMMs using single and multiple stylus contacting probing systems
ISO 10360-6:2001
Part 6: Estimation of errors in computing Gaussian associated features
ISO 10360-6:2001/Cor 1:2007
ISO 10360-7:2011
Part 7: CMMs equipped with imaging probing systems
ISO 10360-8:2013
Part 8: CMMs with optical distance sensors
ISO 10360-9:2013
Part 9: CMMs with multiple probing systems
ISO/DIS 10360-10.2
Part 10: Laser trackers for measuring point-to-point distances
ISO/DIS 10360-12
Part 12: Articulated arm coordinate measurement machines (CMM)
For more information about Wenzel America’s ISO 10360 certifications, services and products just click here:

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