Impact-absorbing fiber-composite structures

What is claimed: 1. An impact-absorbing article comprising: a post-and-sheet layer including: (iii) a base comprising fibers in a first polymer resin, the base having a first major surface and a second major surface, and (iv) a plurality of posts, wherein the posts extend from the first major surface of the base and are perpendicular thereto, and wherein at least some of the fibers in the base extend into respective ones of the posts, and wherein within each post, the fibers are aligned with a long axis of the post, the posts being characterized by a value for a slenderness ratio that results in micro-buckling when the posts are subjected to a compressive force; a first panel attached to the second major surface of the post-and-sheet layer, wherein the second panel is physically adapted to distribute an impact load received thereby to respective ones of the posts; and a second panel attached to a free end of each of the posts. 2. The impact-absorbing article of claim 1 wherein the fibers in the base are randomly oriented in the first polymer resin. 3. The impact-absorbing article of claim 1 wherein the fibers in the base comprise fibers that are at least twice as long as a length of the posts. 4. The impact-absorbing article of claim 1 wherein the second panel comprises a second polymer resin. 5. The impact-absorbing article of claim 4 wherein the second panel comprises fibers dispersed within the second polymer resin. 6. The impact-absorbing article of claim 4 wherein the second polymer resin is polyethylene. 7. The impact-absorbing article of claim 1 wherein the first panel comprises a third polymer resin. 8. The impact-absorbing article of claim 7 wherein the first panel comprises fibers dispersed within the third polymer resin. 9. The impact-absorbing article of claim 8 wherein the third polymer resin is polyethylene. 10. The impact-absorbing article of claim 1 wherein the fibers in the base are selected from the group consisting of carbon, glass, aramid, or HPPE. 11. An impact-absorbing article comprising: a post-and-sheet layer including: (i) a base comprising a first polymer resin, the base having a first major surface and a second major surface, and (ii) a plurality of posts, wherein the posts extend from the first major surface of the base and are perpendicular thereto, the posts have at least at least one physical adaptation that promotes micro-buckling when the posts are subjected to a compressive force; a first panel attached to the second major surface of the post-and-sheet layer, wherein the second panel is physically adapted to distribute an impact load received thereby to respective ones of the posts; and a second panel attached to a free end of each of the posts. 12. The impact-absorbing article of claim 11 wherein the at least one physical adaptation is a first plurality of fibers disposed within the posts, wherein the first plurality of fibers disposed in the posts are substantially aligned with a long axis of the posts. 13. The impact-absorbing article of claim 12 wherein the first plurality of fibers are at least as long as the posts. 14. The impact-absorbing article of claim 13 wherein the first plurality of fibers in the posts extend into the base of the post-and-sheet layer. 15. The impact-absorbing article of claim 14 further comprising a second plurality of fibers, wherein the second plurality of fibers are randomly oriented in the first polymer resin in the base. 16. The impact-absorbing article of claim 15 wherein the first plurality of fibers and the second plurality of fibers are selected from the group consisting of carbon, glass, aramid, or HPPE. 17. The impact-absorbing article of claim 13 wherein the fibers in the posts extend at least as far beyond the posts into the base, as the fibers extend into the posts. 18. The impact-absorbing article of claim 12 and further wherein the posts are characterized, by virtue of dimensions thereof, by a value for a slenderness ratio that results in micro-buckling when the posts are subjected to a compressive force. 19. The impact-absorbing article of claim 11 wherein the at least one physical adaptation is that the posts are characterized, by virtue of dimensions thereof, by a value for a slenderness ratio that results in micro-buckling when the posts are subjected to a compressive force.