Fabrice Saint-Michel scite author profile

This article presents the mechanical behaviour of rigid polyurethane foams with relative density (q f /q s ) above 0,3. The parameter taken into account is the density, which controls the foam architecture. The mechanical properties of the foams, characterised by large deformation compression tests and dynamic mechanical analyses, were compared to two theoretical models: (i) the Gibson and Ashby approach, widely used for foam description and (ii) the 2 + 1 phase model from Christensen and Lo, generally used for the description of particulate composite materials. In the studied density range, it is shown that the second approach is more appropriate. Moreover, the stress-strain curve and in particular yield stress have been modelled using two different approaches by extension of this model to the nonlinear domain.

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Mechanical properties of high density polyurethane foams: II Effect of the filler size

Saint-Michel

Chazeau

Cavaillé

2006

Composites Science and Technology

100

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Fractal behavior and scaling law of hydrophobic silica in polyol

Saint-Michel

Pignon

Magnin

2003

Journal of Colloid and Interface Science

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