Promoting excellence in mobility engineering

  1. FISITA Store
  2. Technical Papers

Review Of Model Updating Processes Used For Brake Components
EuroBrake2015/EB2015-ADS-001

Authors

Guillaume Martin*, Etienne Balmes*, Guillaume Vermot-Des-Roches - SDTools, Chassis Brakes International*
Theirry Chancelier - Arts & Metiers ParisTech,

Abstract

KEYWORDS – Model updating, Geometry errors, Modal Correlation, Material parameters, Contact properties

ABSTRACT - To be confident in the prediction capability of a model, verification and validation steps are classically performed. Verification checks that the model is properly solved. Since the model used are fairly standard, this is not issue for brake components. Validation checks the relation between model and experiments on actual structures. Here geometry measurements and vibration tests are considered. The study seeks to perform a systematic review of how test quality is evaluated, and models are correlated and then updated. This will give a solid basis to define clear and easily used validations protocols for brake components where prediction of modes and their stability in the manufacturing process is often deemed critical.

Updating the geometry before updating the material properties is shown to be very important: the residual error on frequencies is smaller and no bias is introduced in the estimated material properties. Proper pairing of modeshapes is important for broadband comparisons and the MAC criterion is used. Intermediate steps: experimental topology correlation using easy tools with accuracy evaluation, estimation of errors on test shapes, handling of mode crossing, are sources of errors that are analyzed.

For the updating of contact properties, where many parameters may need update, the use of model reduction is shown to allow a major speed-up of parametric studies.

Add to basket