The paper presents a comparison between existent test methods and the numerical simulation of the one considered the most representative in terms of the energy absorption behavior for composite material. The results of the numerical simulations have been validated through experimental data. This optimized model, obtainded with a commercial finite elements code, can provide a simple and economic tool for the designers once extended to a more complex structure.
F.Garattoni, E.Troiani (2010). AN EXPERIMENTAL METHOD AND NUMERICAL SIMULATION FOR COMPOSITE MATERIALS ENERGY ABSORPTION DETERMINATION. BONN : International Council of Aeronautical Science.
AN EXPERIMENTAL METHOD AND NUMERICAL SIMULATION FOR COMPOSITE MATERIALS ENERGY ABSORPTION DETERMINATION
TROIANI, ENRICO
2010
Abstract
The paper presents a comparison between existent test methods and the numerical simulation of the one considered the most representative in terms of the energy absorption behavior for composite material. The results of the numerical simulations have been validated through experimental data. This optimized model, obtainded with a commercial finite elements code, can provide a simple and economic tool for the designers once extended to a more complex structure.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
