A
robust computer modelling tool to predict the structural
performance of mechanical components. The BEASY software
uses boundary element technology to provide a radically
improved approach to predictive computational analysis.
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Reduced meshing times
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Automatic meshing without compromising accuracy
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Easier design changes
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Increase accuracy of results
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Integration with BEASY's crack
growth analysis
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Contact simulation
Increased
Accuracy of Results
BEASY has no match in detailed analysis. Fillet holes and other small features
can be effectively modelled since only the surfaces need to be defined. This
means the real geometry can be analysed without simplification giving more
accurate results and improved fatigue prediction. iscontinuous elements allow
you to accurately capture the behaviour in areas where results are changing
quickly.
Reduced
Meshing Times
BEASY improves the design process and reduces prototype costs using simplified
surface only meshing.
Contact
Simulation
BEASY's contact analysis takes advantage of the reduced meshing times and increased
accuracy to simplify contact analysis. Both node to node and node to surface
contact are supported.
BEM
not FEM
BEASY's BEM technology simplifies contact analysis as only the surfaces have
to be defined. The BEM approach is very accurate for contact simulation since
contact stress is essentially a surface phenomenon where stresses and relative
displacements on the contact surfaces are of paramount importance. BEM reduces
the mesh requirements compared with FEM.
Accurate
Wear Data Prediction
BEASY provides the information to optimise components for wear. Detailed reports
are provided on the contact pressure and slip history.
Automatic Meshing
Without Compromising Accuracy Automatic meshing without the need for lower accuracy
TET elements.
Easier Design
Changes
How many times have you reviewed solution results and found the mesh wasn't refined
enough to give you the critical information you needed? BEASY offers a better
solution to this problem. With BEASY the mesh can be locally modified without
remeshing the entire model
