We. Baker et al., STATIC AND DYNAMIC PROPERTIES OF HIGH-DENSITY METAL HONEYCOMBS, International journal of impact engineering, 21(3), 1998, pp. 149-163
Metal honeycombs are commonly used to absorb energy in applications in
volving impact because of their high-energy capacity to weight ratio.
The energy capacity of a material will be affected by any strain-rate
effect in the material; thus knowledge of this property is necessary f
or design purposes. The materials studied in this work were a thick-wa
lled aluminum and stainless-steel honeycomb. A method of testing the s
pecimens in a state approximating uniaxial strain was developed for th
e large compressive deformations required with honeycombs, and used Fo
r both static and dynamic tests. For the dynamic rests, a gas gun was
used to propel projectiles into fixed specimens of the test materials,
and measurements of the force at the fixed ends of the specimens were
used to determine the energy absorption properties of the materials.
Initial strain rates to about 2000/s were obtained. Both materials sho
wed a strain-rate effect. (C) 1998 Elsevier Science Ltd. All rights re
served.