The mechanical properties at room temperature of three polymeric foams (namely EPP, PUR and PS/PA foams) have been experimentally evaluated in both static and impact loading conditions. The energy absorption characteristics have been examined both through the energy-absorption diagram method and through the e$ciency diagram method. The meaning of the e$ciency parameter, already used in the literature, has been explained in a proper, satisfactory way. It is shown that the maximum of the e$ciency identi"es the condition for optimal energy absorption of the foam, while the maximum stress reaches a value limited through other design considerations. The e$ciency diagram method is then used to obtain synthetic diagrams useful to characterize the material and to help the design of energy absorbing components. These synthetic selection diagrams are obtained for the three tested materials. Finally, some consideration are drawn comparing the mechanical performance of the three considered types of foams and their dependency on density.
Characterization of polymeric structural foams under compressive impact loading by means of energy-absorption diagram
MONTANINI, Roberto
2001-01-01
Abstract
The mechanical properties at room temperature of three polymeric foams (namely EPP, PUR and PS/PA foams) have been experimentally evaluated in both static and impact loading conditions. The energy absorption characteristics have been examined both through the energy-absorption diagram method and through the e$ciency diagram method. The meaning of the e$ciency parameter, already used in the literature, has been explained in a proper, satisfactory way. It is shown that the maximum of the e$ciency identi"es the condition for optimal energy absorption of the foam, while the maximum stress reaches a value limited through other design considerations. The e$ciency diagram method is then used to obtain synthetic diagrams useful to characterize the material and to help the design of energy absorbing components. These synthetic selection diagrams are obtained for the three tested materials. Finally, some consideration are drawn comparing the mechanical performance of the three considered types of foams and their dependency on density.Pubblicazioni consigliate
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