Materials for damped heatsink disk brake assembly

What is claimed is: 1. A disk brake system, comprising: a pressure plate; a stator friction disk having a stator density of at least 1.7 grams per cubic centimeter, located axially between the pressure plate and an end plate; a rotor friction disk having a rotor density of at least 1.7 grams per cubic centimeter, located axially between the pressure plate and the end plate, wherein the rotor friction disk and the stator friction disk are annular disks, and the rotor friction disk and the stator friction disk are adjacent to one another and disposed coaxially, wherein at least one of the rotor friction disk and the stator friction disk is a split friction disk comprising a split friction disk first half and a split friction disk second half, wherein each half has an attachment structure that comprises a lug half; and a damping feature located axially between the split friction disk first half and the split friction disk second half, wherein the damping feature comprises carbon foam having a damping feature density of less than 0.4 grams per cubic centimeter and a porosity of between 60% and 69%, wherein the damping feature and the halves are connected by a rivet that goes through the lug half of the first disk, through the damping feature, and through the lug half of the second disk. 2. The disk brake system of claim 1 , wherein the carbon foam is a densified carbon foam. 3. The disk brake system of claim 1 , wherein the split friction disk first half and the split friction disk second half each comprise an annular-shaped disk half further comprising: a friction surface; and a non-friction surface on a side opposite of the friction surface. 4. The disk brake system of claim 1 , further comprising a plurality of the rotor friction disk and a plurality of the stator friction disk, wherein locations of the stator friction disks alternate axially with locations of the rotor friction disks, and there is one more of the rotor friction disk than there are of the stator friction disks. 5. The disk brake system of claim 1 , wherein the split friction disk is located in a middle position of the disk brake system. 6. The disk brake system of claim 1 , wherein a plurality of the split friction disks are positioned adjacent to at least one of the pressure plate and the end plate. 7. The disk brake system of claim 1 , further comprising a plurality of the rotor friction disk and a plurality of the stator friction disk, wherein at least some of the plurality of the rotor friction disk and the plurality of the stator friction disk are solid friction disks positioned adjacent to at least one of the pressure plate or the end plate. 8. The disk brake system of claim 1 , wherein the damping feature comprises a compressive strength between 2.4 megapascals and 4.1 megapascals and a density of between grams per cubic centimeter 0.05 and 1.0 grams per cubic centimeter. 9. A friction disk for an aircraft brake system comprising: a first friction disk half having a density of at least 1.7 grams per cubic centimeter; a second friction disk half having a density of at least 1.7 grams per cubic centimeter; and a carbon foam damping feature having a density of less than 0.4 grams per cubic centimeter, a porosity of between 60% and 69% and located axially between the first friction disk half and the second friction disk half. 10. The friction disk of claim 9 , wherein the carbon foam damping feature is a densified carbon foam. 11. A disk brake system, comprising: a pressure plate; a reaction plate; and a plurality of friction disks located between the pressure plate and the reaction plate, wherein a first friction disk in the plurality of friction disks comprises a first disk half having a density of at least 1.7 grams per cubic centimeter; a second disk half having a density of at least 1.7 grams per cubic centimeter, wherein the first disk half and the second disk half each have an attachment structure that comprises a lug half; and a carbon foam damping feature having a density of less than 0.4 grams per cubic centimeter and a porosity of between 60% and 69%, located axially between the first disk half and the second disk half, wherein the damping feature and the halves are connected by a rivet that goes through the lug half of the first disk half, through the damping feature, and through the lug half of the second disk half. 12. The disk brake system of claim 11 , wherein the first friction disk comprises a stator. 13. The disk brake system of claim 11 , wherein the first friction disk comprises a rotor. 14. The disk brake system of claim 11 , wherein each friction disk in the plurality of friction disks comprises a carbon foam damping feature. 15. The disk brake system of claim 11 , wherein the carbon foam damping feature is a densified carbon foam. 16. The disk brake system of claim 11 , wherein the first friction disk is located in a middle position of the disk brake system.