Finite element analysis of wear and temperature development in heavy-duty disc brakes
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Författare
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
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Sammanfattning
As exhaust emissions from vehicles continue to decline, non-exhaust emissions, particularly
those arising from brake and tire wear, have become a critical area of interest and
regulatory focus. The EU Euro 7 regulation will, for the first time, set requirements on
the particle emission behaviour of brake systems and tires. Hence, the aim of this MSc
thesis is to investigate wear and temperature development in truck disc brakes through
the development of finite element (FE) models, which is validated against rig-test data.
In addition, material parameters are calibrated towards measured data.
The FE-modelling consisted of axisymmetric and three-dimensional representations of
both the entire brake assembly and a simplified half-model. Thermal and thermomechanical
simulations of disc crack tests were performed on the models using the commercial
software Abaqus to study the wear and temperature development. The thermal models
were used with the optimisation software modeFRONTIER to fit and calibrate thermal
material parameters. The results of the different models were compared with each other
and with rig-test data.
The results showed that thermal axisymmetric models are efficient for fast temperature
prediction and parameter fitting, but are limited in their ability to capture local contact
effects, hot-spotting and non-uniform wear. The thermomechanical models provided a
more detailed description of the interaction between contact pressure, temperature and
wear, and showed that local temperature peaks and wear patterns can strongly influence
the brake response. The 3D-model further demonstrated the importance of circumferential
variations in the pad and disc, although its computational cost limited the possible mesh
refinement and the duration that could be simulated. For multiple stop simulations, the
use of a temperature dependent wear scaling factor gave a temperature development closer
to the rig-test data, while the constant wear scaling factor gave wear results closer to the
measured values. The parameter calibration showed that modeFRONTIER can be used
to fit thermal and wear-related parameters, but also highlighted the risk of compensating
for model simplifications with parameter tuning.
Beskrivning
Ämne/nyckelord
brake, disc, pad, FE, wear, temperature, Euro 7, modeFRONTIER, Abaqus
