Daniele Ferrari scite author profile

Daniele Ferrari

3Publications

8Citation Statements Received

0Citation Statements Given

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University of Rome Tor Vergata

Publications

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Numerical Simulation of Laser Bending of Aluminum Foams

Quadrini

Bellisario

Ferrari

et al. 2013

KEM

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Laser forming of open-cell aluminum foams has been modeled by means of a 3D finite element model which is able to take into account the real foam geometry as well as the main process variables. A parametric procedure has been defined for the geometry construction and meshing, and the simulation run. In order to calibrate and validate numerical modeling, compression and flexure tests were performed on a closed-cell aluminum foam. The simulation of mechanical tests allowed a correct modeling of the aluminum alloy behavior under plastic deformation. The same material behavior was implemented in a complex thermo-mechanical model for laser bending simulation. The final model is able to predict the shape evolution during forming and the correlation between process variables and final bent angles.

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Numerical Simulation of Laser Forming of Aluminum Sponges: Effect of Temperature and Heat Treatments

Quadrini

Bellisario

Ferrari

et al. 2014

KEM

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Laser forming ofopen-cell aluminum foams can be modeled by means of 3D thermo-mechanical models but the correct evaluation of the alloy material properties is a key-factor for obtaining good predictions. In order to increase the model predictability from a quantitative point of view, further information about the material behavior under laser exposure is necessary. In this study the effect of the temperature on the mechanical properties of a commercial aluminum sponge has been evaluated in terms of yielding stress and tangent modulus. Experimental tests have been performed by compression and used to infer mechanical properties by means of a 3D FE model. The same approach has been used also to evaluate the effect of a heat treatment of the sponge on the material behavior during forming. In conclusion numerical simulation of laser heating has been used to show the effect of the laser-material interaction on the final homogeneity of processed foams.

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Numerical Simulation of Open-Cell Aluminum Foams under Compression

Quadrini

Bellisario

Ferrari

et al. 2012

KEM

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The numerical simulation of the compression behavior of open-cell aluminum foams is discussed as a way to extract material property information for laser forming simulation. A bilinear isotropic model was implemented for the alloy base material whereas a parametric approach was used to build the finite element model of the foam structure. Compression tests were performed on commercial foams with different pore size and density, and the results of lower density foam were used for the model validation. Numerical results show a good agreement with experimental data in terms of foam deformation under compression and required loads.

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Daniele Ferrari

Numerical Simulation of Laser Bending of Aluminum Foams

Numerical Simulation of Laser Forming of Aluminum Sponges: Effect of Temperature and Heat Treatments

Numerical Simulation of Open-Cell Aluminum Foams under Compression

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