Application of instrumented falling dart impact to the mechanical characterization of thermoplastic foams

The applicability of instrumented falling weight impact techniques in chara cterizing mechanically thermoplastic foams at relatively high strain rates is presented in this paper. In order to try simulating impact loading of fo ams against sharp elements, an instrumented dart having a hemispherical hea dstock was employed in the tests. Failure strength and toughness values wer e obtained from high-energy impact experiments, and the elastic modulus cou ld be measured from both flexed plate and indentation low-energy impact tes ts. The results indicate a dependence of the failure strength, toughness, a nd the elastic modulus on the foam density, the foaming process, and the ch emical composition. This influence was found to be similar to that of pure nonfoamed materials and also to that observed from low-rate compression tes ts. The results also indicate that the indentation low-energy impact tests were more accurate in obtaining right values of the elastic modulus than th e flexed plate low-energy impact tests usually used to characterize rigid p lastics. The foam indentation observed with this test configuration contrib utes to obtaining erroneous values of the elastic modulus if only a simple flexural analysis of plates is applied. (C) 1999 Kluwer Academic Publishers .