论文信息 - Error localization and updating of junction properties for an engine cradle model

Error localization and updating of junction properties for an engine cradle model

Extending the bandwidth of validity of FEM models used in vibroacoustic design is a generic objective of model generation processes. Achieving this objective requires a critical review of both testing and modeling processes. Using the case study of an engine cradle, tools used to detect modal test inconsistencies are first illustrated. On the modeling side, weld spots and lines and variations of thickness due to press forming are shown to have relatively minor impact when compared to the contact surfaces. Usual junction simplifications are also shown to play a major role particularly at higher frequencies where more localized modeshapes occur.

Etienne Balmes | Guillaume Vermot Des Roches | Samuel Nacivet

[1] Daniel C. Kammer. Sensor set expansion for modal vibration testing , 2005 .

[2] P. Guillaume,et al. Constrained maximum likelihood modal parameter identification applied to structural dynamics , 2016 .

[3] Rémi Lemaire,et al. Using component modes in a system design process , 2011 .

[4] Etienne Balmès,et al. Frequency Domain Identification of Structural Dynamics Using the Pole / Residue Parametrization , 1997 .

[5] Stijn Donders,et al. The robustness of dynamic vehicle performance to spot weld failures , 2006 .

[6] Etienne Balmes,et al. Improved Modal Assurance Criterion using a quantiﬁcation of identiﬁcation errors per mode/sensor , 2014 .

[7] Etienne Balmes,et al. Understanding friction induced damping in bolted assemblies through explicit transient simulation , 2014 .

[8] E. Balmés. Review and evaluation of shape expansion methods , 2000 .

[9] John Crowley,et al. THE MULTIVARIATE MODE INDICATOR FUNCTION IN MODAL ANALYSIS , 1985 .

[10] Mikhail Guskov,et al. Numerical design and test on an assembled structure of a bolted joint with viscoelastic damping , 2016 .