Rick Gaynor brings over 25 years of relevant experience in laboratory testing, electro-mechanical engineering and applications engineering to his new role, including 13 years as general manager of a metrology laboratory at Dayton T. Brown, Inc.
Smart organizations are taking a holistic view of their manufacturing operation and a hard look at their inspection and quality practices. As technology has progressed, so has the manufacturer’s ability to closely align their unique needs and applications to the selection of a coordinate measurement machine (CMM).
Force measurement, defined as the measurement of tensile or compressive loads acting upon an object, is an indispensable method of assessing and ensuring the quality of materials, components, and assemblies.
The term ‘proficiency testing’ is one that every accredited calibration laboratory is quite familiar with. In basic terms it refers to a method of evaluating how well a laboratory is doing a particular calibration with respect to its claimed measurement uncertainty and how it fares with other participants.
It’s not every day that a company specializing in software solutions for tolerance analysis gets to supply an international project to build the world’s largest tokamak.
It’s easy to take many of today’s technological marvels for granted, 3D measurement among them. The idea of simply pointing a “ray gun” of sorts at an object and obtaining all of its geometrical measurements would once have been solely the domain of Star Trek-ian science fiction.
As part tolerances tighten, both form and surface finish have a bigger influence on the size and function of the product. And with pressures on manufacturing to be more productive, it is no longer viable for checks of surface or form to be performed on a measuring system in a quality room.