Metal Foams as Energy Absorbers for Automobile Bumpers

720490

02/01/1972

Event
National Automobile Engineering Meeting
Authors Abstract
Content
Evaluations of aluminum foams show they can be efficient energy absorbers. They are especially interesting because they have virtually no rebounding characteristics. The load-compression response characteristics of the foam can be controlled by variations of alloy composition and foam density, thereby controlling foam strength and ductility. This makes foamed metals attractive candidates for a number of automotive energy-absorption applications.
The energy-absorption properties of a number of aluminum alloy foams have been studied under low and medium speed impact, up to 25 mph. The foam density, volume, and size required for a 5 mph “single shot” impact shock absorber have been determined for two automotive weight classes.
Nonshearing, columnar, high-density foam structures have been developed to withstand basal compressive loads. These columns have potential for multi-impact shock-absorbing applications.
Work is currently under way to define foamed aluminum properties and design required for use in bumpers for 50 mph barrier and pole impacts.
Meta TagsDetails
DOI
https://doi.org/10.4271/720490
Pages
7
Citation
Niebylski, L., and Fanning, R., "Metal Foams as Energy Absorbers for Automobile Bumpers," SAE Technical Paper 720490, 1972, https://doi.org/10.4271/720490.
Additional Details
Publisher
Published
Feb 1, 1972
Product Code
720490
Content Type
Technical Paper
Language
English