Applications & Measurement Solutions
High measuring accuracy and a significant reduction in the reject rate are decisive factors in increasing production efficiency. One way to follow a continuous improvement process is the use of high-resolution, optical 3D metrology.
Applications of optical 3D metrology in the automotive industry
[Translate to 中文:]
>> 3D Measurement
of fuel injection nozzles, measurement of valves, connecting rods and envelopes
>> High-resolution measurement
of valve seat roundness: deviations in roundness are capably measured even in the 1-2 micron tolerance range
>> Automatic cam insepction
evaluation of ridges and distance between laser lines
>> Failure analysis
and development of materials for engine an d transmission components (e.g. corrosion, analysis of breakdown, measurement of spinning in angular gearbox, gear damage, 3D measurement of mulit-plate clutches and synchronizers)
>> Quality assurance
of sealing systems, contour measurement of synchronizer rings, car body and steel surfaces
FIND OUT MORE
Dimensional metrology to increase efficiency and quality
[Translate to 中文:]
Check out the following material to find out more details on applications with the InfiniteFocus G5, a highly accurate, fast and flexible optical 3D surface measurement system that combines dimensional metrology and surface roughness measurement in one system.
In this webinar you can learn more about high-resolution measurements and evaluation of valve seat roundness, where deviations in roundness are capably measured down to the 1-2 micron tolerance range and undulations (UPR) as well as surface texture of valve seats and sealing rings.
The form and dimensional accuracy of bipolar plates is critical and difficult to measure. Bruker Alicona 3D optical metrology solutions provide the ability to measure, without physical contact, these delicate components. For these measurements, the optical µCMM was used.
This measurement report was produced in cooperation with Fraunhofer IPT and AVL.
Valve Seat Inspection
The measuring object is a valve seat, measured with the InfiniteFocus G5 and an Advanced Real3D Rotation Unit. In order to analyze the valve seat, the following parameters are measured:
- opening angle of the inner cone
- concentricity of the cone axis relative to the axis of the outer cylinder
- roundness of the sphere contact surface
- diameter of the outer and inner cylinders
In addition, form deviations of the measured dataset compared to the CAD dataset are automatically measured. By measuring the parameters, it is possible to ensure that the valve seat also fulfils functional and leakage requirements at system pressures of more than 2000 bar.