Dual layer sintered metallic clutch friction facing

What is claimed is: 1. A method for forming a friction facing, comprising: placing a bonding powder mix in to a die to form a bonding layer; leveling the bonding layer prior to pressing; placing a performance powder mix in to the die to form a performance layer, the performance powder mix comprising a different composition than the bonding powder mix; leveling the performance powder mix prior to pressing; pressing the performance powder mix and the bonding powder mix to create a dual-layer compact; applying the compact to a backer plate; and sintering the compact to the backer plate. 2. The method of claim 1 , further comprising pressing the bonding powder mix prior to placing the performance powder mix in to the die. 3. The method of claim 2 , further comprising applying a brazing layer to the pressed bonding powder mix prior to placing the performance powder mix in to the die. 4. The method of claim 1 , wherein the pressing comprises a first pressing step and a second pressing step, wherein the first pressing step forms a first compact layer, wherein the second pressing step forms a final compact by adding a second compact layer to the first compact layer, and wherein one of the bonding layer and the performance layer is the first compact layer and the other of the bonding layer and the performance layer is the second compact layer. 5. The method of claim 1 , wherein the bonding powder mix differs in composition from the performance powder mix by comprising less friction modifiers than the performance powder mix. 6. A friction facing for a clutch disc, comprising: a sintered compact comprising a bonding layer and a performance layer that have been pressed together prior to being sintered together; and a brazing layer between the bonding layer and the performance layer, wherein the brazing layer is applied prior to pressing together the bonding layer and the performance layer, wherein the bonding layer differs from the performance layer by comprising less friction modifiers than the performance layer, and wherein the friction modifiers comprise one or more of copper, bronze, and zirconium. 7. The friction facing of claim 6 , wherein the bonding layer differs from the performance layer by comprising less binding material than the performance layer. 8. The friction facing of claim 6 , wherein the bonding layer differs from the performance layer by comprising more binding material than the performance layer. 9. The friction facing of claim 6 , wherein the bonding layer comprises a thickness that is one third to one half of a total thickness of the sintered compact. 10. The friction facing of claim 9 , wherein the performance layer comprises a performance thickness corresponding to a wear-through height. 11. A clutch disc assembly, comprising: a clutch disc comprising a mounting hole for securing a friction facing; a backer plate comprising a pass-through hole; and a compact sintered to the backer plate, the compact comprising a bonding layer and a performance layer that have been pressed together prior to the compact being sintered to the backer plate, wherein the bonding layer differs from the performance layer by comprising less binding material than the performance layer, wherein the performance layer differs from the bonding layer by comprising more friction modifiers than the bonding layer, and wherein the bonding layer is in contact with the backer plate. 12. The clutch disc assembly of claim 11 , further comprising a mounting mechanism joining the mounting hole to the pass-through hole, wherein the mounting mechanism comprises a head-height for a portion of the mounting mechanism that is mounted near the sintered compact, and wherein the bonding layer comprises a thickness corresponding to the head-height of the mounting mechanism. 13. The clutch disc assembly of claim 11 , wherein the bonding layer comprises a thickness that is one third to one half of a total thickness of the sintered compact. 14. The clutch disc assembly of claim 11 , wherein the friction modifiers comprise one or more of copper, bronze, and zirconium. 15. A method for forming a friction facing, comprising: placing a first mix in a die to form a first layer, the first mix comprising one of a bonding powder mix and a performance powder mix, the performance powder mix comprising a different composition than the bonding powder mix; pressing the first mix prior to placing a second mix into the die; placing the second mix in to the die to form a second layer, the second mix comprising the other of the one of the performance powder mix and the bonding powder mix; pressing the performance powder mix and the bonding powder mix to create a dual-layer compact; applying the dual-layer compact to a backer plate; and sintering the dual-layer compact to the backer plate. 16. The method of claim 15 , further comprising applying a brazing layer to the pressed first mix prior to placing the second mix in to the die.