Fixation leg for a vehicle interior panel and method of manufacturing same

The invention claimed is: 1. A fixation leg for an interior panel of a vehicle comprising: a body extending between a substrate attachment end configured to be attached to, or integral with, a substrate of the interior panel and a structural attachment end configured to be attached to, or integral with, a structural component of the vehicle; and an impact energy absorption region located in the body between the substrate attachment end and the structural attachment end, wherein the impact energy absorption region includes a plurality of partial perforations or a combination of partial and complete perforations. 2. The fixation leg of claim 1 , further comprising a first lateral edge and a second lateral edge between the substrate attachment end and the structural attachment end on either side of the body. 3. A fixation leg for an interior panel of a vehicle comprising: a body extending between a substrate attachment end configured to be attached to, or integral with, a substrate of the interior panel and a structural attachment end configured to be attached to, or integral with, a structural component of the vehicle, the body having a first lateral edge and a second lateral edge between the substrate attachment end and the structural attachment end on either side of the body; and an impact energy absorption region located in the body between the substrate attachment end and the structural attachment end, wherein the impact energy absorption region includes one or more partial or complete perforations, wherein a concentration of a plurality of partial or complete perforations is higher toward a midline of the body than toward each of the first and second lateral edges. 4. The fixation leg of claim 2 , wherein a plurality of partial or complete perforations extend in a line from the first lateral edge to the second lateral edge. 5. The fixation leg of claim 1 , wherein a plurality of partial perforations have a variable depth. 6. The fixation leg of claim 1 , wherein the body includes a bend that delineates a structural attachment portion at the structural attachment end and an angled transition portion between the structural attachment portion and the substrate attachment end. 7. The fixation leg of claim 6 , wherein the impact energy absorption region is located in the angled transition portion. 8. The fixation leg of claim 6 , wherein the impact energy absorption region is aligned with a convex curved portion of the bend. 9. The fixation leg of claim 6 , further comprising a second bend that delineates a substrate attachment portion at the substrate attachment end such that the angled transition portion is located between the first and second bends and between the substrate attachment end and the structural attachment end. 10. The fixation leg of claim 9 , wherein the impact energy absorption region is aligned with a convex curved portion of the second bend. 11. The fixation leg of claim 10 , wherein both bends include an impact energy absorption region. 12. The fixation leg of claim 1 , wherein the structural component of the vehicle is a crossmember and the interior panel is an instrument panel. 13. A method of manufacturing the fixation leg of claim 1 for an interior panel of a vehicle, comprising the steps of: directing a laser beam at the body of the fixation leg; and removing material from the body with the laser beam to form one or more partial or complete perforations at the impact energy absorption region. 14. The method of claim 13 , further comprising the step of injection molding the body of the fixation leg before the step of directing the laser beam, wherein the injection molded body has a consistent thickness. 15. The method of claim 14 , wherein the injection molding step includes integrally molding the body of the fixation leg with a substrate of the interior panel of the vehicle. 16. The method of claim 13 , wherein the material is removed at each of the partial or complete perforations by a discrete laser pulse. 17. The method of claim 16 , wherein the material is removed in a plurality of sequential ablation passes. 18. A fixation leg for an interior panel of a vehicle comprising: a body extending between a substrate attachment end configured to be attached to, or integral with, a substrate of the interior panel and a structural attachment end configured to be attached to, or integral with, a structural component of the vehicle, the body having a first lateral edge and a second lateral edge between the substrate attachment end and the structural attachment end on either side of the body; and an impact energy absorption region located in the body between the substrate attachment end and the structural attachment end, wherein the impact energy absorption region includes a plurality of complete perforations that extend in a line from the first lateral edge to the second lateral edge, wherein the plurality of complete perforations are located wholly between the first lateral edge and the second lateral edge.