Positioning of disks in the brake released mode for multi disk brakes

What is claimed is: 1. A brake disk assembly comprising: a plurality of stator disks that are non-rotatable; a plurality of rotor disks arranged adjacently and coaxially with the plurality of stator disks, the plurality of rotor disks being rotatable, the plurality of stator disks and the plurality of rotor disks being axially moveable between an engaged position in which the plurality of stator disks and the plurality of rotor disks are engaged and a disengaged position in which the plurality of stator disks and the plurality of rotor disks are spaced apart; and an axial retention device that is axially moveable and supports the plurality of stator disks and the plurality of rotor disks for maintaining a predetermined space between the stator disk and the rotor disk when in the disengaged position, wherein the axial retention device includes sets of pins or bolts, wherein a first set of pins or bolts supports a single stator disk and a second set of pins or bolts supports a single rotor disk, wherein the sets of pins or bolts position the plurality of stator disks and the plurality of rotor disks relative to a fixed structure when in the disengaged position, the sets of pins or bolts being configured to allow the plurality of stator disks and the plurality of rotor disks to engage each other when in the engaged position, wherein at least one of the first set of pins or bolts and the second set of pins or bolts includes a plurality of spring-loaded driving pins or bolts and a plurality of stopping pins or bolts, and wherein the axial retention device includes a plurality of springs engageable with the plurality of driving pins or bolts for biasing the corresponding rotor disk or stator disk in an axial direction against the fixed structure when the plurality of stator disks and the plurality of rotor disks are in the disengaged position. 2. The brake disk assembly of claim 1 further comprising the plurality of springs that are each pre-loaded. 3. The brake disk assembly of claim 1 , wherein the at least one of the first set of pins or bolts and the second set of pins or bolts includes three spring-loaded driving pins and three stopping pins, each of the three spring-loaded driving pins being axially aligned with one of the three stopping pins. 4. The brake disk assembly of claim 3 , wherein the three spring-loaded driving pins and the three stopping pins are circumferentially and evenly spaced from one another. 5. The brake disk assembly of claim 1 , wherein the plurality of stator disks and the plurality of rotor disks that are interleaved with one another. 6. The brake disk assembly of claim 1 , wherein the plurality of stator disks and the plurality of rotor disks are spaced from one another by a distance between 0.08 millimeters and 1.20 millimeters when in the disengaged position, the plurality of rotor disks being freely rotatable in the disengaged position. 7. The brake disk assembly of claim 1 , wherein one of the plurality of spring-loaded driving pins or bolts is radially spaced relative to one of the plurality of stoppings pins or bolts. 8. The brake disk assembly of claim 7 , wherein the one of the plurality of spring-loaded driving pins or bolts is connected to the one of the plurality of stoppings pins or bolts by a radially extending member. 9. The brake disk assembly of claim 1 , wherein one of the plurality of spring-loaded driving pins or bolts is radially aligned relative to one of the plurality of stoppings pins or bolts. 10. A braking system that is arranged in a vehicle and has an actuated mode of operation and a released mode of operation, the braking system comprising: the brake disk assembly according to claim 1 ; a static structure fixed to the vehicle; and a rotor that is rotatable relative to the static structure; wherein the plurality of stator disks are supported by the static structure, the plurality of rotor disks being supported by the rotor for rotation with the rotor, the plurality of stator disks and the plurality of rotor disks being axially moveable to engage one another during the actuated mode of operation and disengage from one another during the released mode of operation. 11. A method of operating a multi-disk brake assembly having an actuated mode of operation and a released mode of operation, the method comprising: applying pressure to release a plurality of rotor disks and a plurality of stator disks from engagement during the released mode of operation; using sets of spring-loaded pins or bolts to bias the plurality of rotor disks and the plurality of stator disks in a first axial direction, wherein the sets of spring-loaded pins or bolts position the plurality of rotor disks and the plurality of stator disks relative to a fixed structure in a predetermined position to create a predetermined space between the plurality of rotor disks and the plurality of stator disks; maintaining the predetermined space between the plurality of rotor disks and the plurality of stator disks during the released mode of operation using a biasing force of the spring-loaded pins or bolts, wherein a first set of pins or bolts supports a single stator disk and a second set of pins or bolts supports a single rotor disk, wherein at least one of the first set of pins or bolts and the second set of pins or bolts includes a plurality of spring-loaded driving pins or bolts and a plurality of stopping pins or bolts; using a plurality of springs engageable with the plurality of driving pins or bolts for biasing the corresponding rotor disk or stator disk in the first axial direction against the fixed structure when the plurality of stator disks and the plurality of rotor disks are in the disengaged position; and using the plurality of rotor disks or the plurality of stator disks to push at least one pin or bolt of the set of spring-loaded pins or bolts in a second axial direction during the actuated mode of operation. 12. A brake disk assembly comprising: a stator disk that is non-rotatable; a rotor disk arranged adjacently and coaxially with the stator disk, the rotor disk being rotatable, the stator disk and the rotor disk being axially moveable between an engaged position in which the stator disk and the rotor disk are engaged and a disengaged position in which the stator disk and the rotor disk are spaced apart; and an axial retention device that is axially moveable and supports at least one of the stator disk and the rotor disk for maintaining a predetermined space between the stator disk and the rotor disk when in the disengaged position, wherein the axial retention device includes a set of pins that position the stator disk and the rotor disk relative to a fixed structure when the stator disk and the rotor disk are in the disengaged position, the set of pins being configured to allow the stator disk and the rotor disk to engage each other when in the engaged position, and wherein the set of pins includes a plurality of spring-loaded driving pins and a plurality of stopping pins, the rotor disk or the stator disk being interposed between the plurality of driving pins and the plurality of stopping pins, wherein the axial retention device includes a plurality of springs engageable with the plurality of driving pins for biasing the rotor disk or the stator disk in a first axial direction against the plurality of stopping pins when the stator disk and the rotor disk are in the disengaged position. 13. The brake disk assembly of claim 1 further comprising the plurality of springs that are each pre-loaded. 14. The brake disk assembly of claim 1 , wherein the at least one of the first set of pins or bolts and