MItools

MItools^TM

MItools^TM is a state-of-the-art software to determine the elastic properties of materials from resonant frequencies of test samples. It provides a user-friendly implementation the of the mixed numerical-experimental identitication approach together with range of tools to post-process the results, evaluate the uncertainty on the identified parameters, prepare and optimize the vibration test, etc. MItools^TM is thus a fully featured software suite that can support you in handling all aspects of your material identification problems.

Finite Element Modeling
Images/Slide-01.png
Finite element model of a beam shapes sample (left) and the fundamental torsional vibration mode (right).
Mesh Generation
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Generating the mesh of an annular plate-shaped sample: the mesh definition dialog window (right) and the finite element model (left).
Sensitivity Analysis
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Computing the sensitivity coefficients of the resonant frequencies of a plate-shaped specimen with respect to the elastic material parameters: the sensitivity matrix (left) and the finite element model (right).
Pretest Analysis
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The cumulated modal displacement (CMD) plots to measure the fundamental flexural and torsional vibration modes simultaneously: optimal suspension locations (left) and optimal measurement locations (right).


Home MItools^TM Applications Services Support Publications Contact Download the full MItools^TM product presentation.	MItools^TM MItools^TM is a state-of-the-art software to determine the elastic properties of materials from resonant frequencies of test samples. It provides a user-friendly implementation the of the mixed numerical-experimental identitication approach together with range of tools to post-process the results, evaluate the uncertainty on the identified parameters, prepare and optimize the vibration test, etc. MItools^TM is thus a fully featured software suite that can support you in handling all aspects of your material identification problems. Finite Element Modeling Images/Slide-01.png Finite element model of a beam shapes sample (left) and the fundamental torsional vibration mode (right). Mesh Generation Images/Slide-02.png Generating the mesh of an annular plate-shaped sample: the mesh definition dialog window (right) and the finite element model (left). Sensitivity Analysis Images/Slide-03.png Computing the sensitivity coefficients of the resonant frequencies of a plate-shaped specimen with respect to the elastic material parameters: the sensitivity matrix (left) and the finite element model (right). Pretest Analysis Images/Slide-04.png The cumulated modal displacement (CMD) plots to measure the fundamental flexural and torsional vibration modes simultaneously: optimal suspension locations (left) and optimal measurement locations (right).
Copyright © 2006-2011, Tom Lauwagie

Finite Element Modeling

Mesh Generation

Sensitivity Analysis

Pretest Analysis