White paper

Implement a 100% quality inspection system using end-of-line testing

Tempo di lettura: 26 minuti
NVH-based quality inspection of vehicle component using end-of-line testing to improve overall product and manufacturing quality

In the automotive sector, end-of-line testing uses vibroacoustic measurements to accurately identify the properties of every produced component and determine if the product has any defect.

Performing pass-or-fail checks, the quality inspection system delivers formal proof that the component meets its specifications. It helps to minimize quality issues and offers manufacturers insights on how to increase the overall quality of the production process.

This white paper describes how to implement a 100% NVH-based quality inspection system and systematically improve overall product and manufacturing quality.


Learn how an automated NVH-based quality inspection system can help you to detect production faults

The definition of noise and vibration quality is often based on subjective perception. By leveraging a robust and reliable quality inspection system, vehicle OEMs and suppliers automatically and objectively test high volumes of mass-produced parts, such as; engines, transmissions, steering components, or electric motors, and detect faulty parts in the production line.

Simcenter Anovis is a robust and reliable industrial NVH-based quality testing system. It is easy to integrate into end-of-line test benches and production lines. It helps to deliver product quality at lower production costs while preventing production line outages and reliably identifying defects.

Download the white paper and discover how to:

  • Move from subjective quality criteria to objective measures
  • Expand the assessment features for fault identification
  • Process angle equidistant signal methods
  • Use the automatic definition of limits

Download the white paper and discover how to implement a 100% quality inspection system and systematically improve overall product and manufacturing quality.

Condividi

Risorse correlate