In this paper, a new sandwich with an orthogrid stiffened shape memory polymer (SMP)
based syntactic foam core was proposed, fabricated, programmed, impacted, healed
(sealed), and compression tested, for the purposes of healing impact damage repeatedly and
almost autonomously. Two prestrain levels (3% and 20%), two impact energy levels (30.0
and 53.3 J), and two recovery (healing) conditions (2D confined and 3D confined) were
employed in this paper. Up to seven impact–healing cycles were conducted. Macroscopic
and microscopic damage–healing observation and analysis were implemented. Residual
strength was evaluated using an anti-buckling compression test fixture. It was found that
the healing efficiency was over 100% for almost all the impact–healing cycles; programming
using 20% prestrain led to higher residual strength than that with 3% prestrain; 3D
confined recovery resulted in higher residual strength than 2D confined recovery;
and as the impact energy increased, the healing efficiency slightly decreased.
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