Mechanical high spin-shock testing machines

What is claimed is: 1. A rotary shock testing machine comprising: a base; a shaft rotatable relative to the base; a test disc for holding one or more specimens to be tested, the test disc being rotatable with the shaft; an actuator for applying a rotation to the shaft and test disc; and a brake for applying a braking force to the test disc to subject the one or more specimens to a rotary shock, wherein the brake comprises: a brake pad movable between a first position away from a surface movable together with the shaft and a second position engaging the surface; and a braking actuator for moving the brake pad from the first position to the second position; wherein the surface is a portion of the test disc. 2. The rotary shock testing machine of claim 1 , further comprising one or more bearings for rotatably supporting the shaft. 3. The rotary shock testing machine of claim 2 , wherein the one or more bearings comprises two or more bearings and the shaft comprising two or more shaft portions corresponding to each of the two or more bearings, and further comprising a coupling for coupling each of adjacent two or more shaft portions together. 4. The rotary shock testing machine of claim 3 , wherein the coupling is a clutch. 5. The rotary shock testing machine of claim 1 , further comprising a sensor for sensing one or more of position, velocity, acceleration and deceleration of the test disc. 6. The rotary shock testing machine of claim 1 , wherein the actuator is an electric motor. 7. The rotary shock testing machine of claim 1 , further comprising a slow motion camera system directed at the one or more specimens to be tested. 8. The rotary shock testing machine of claim 1 , wherein: the braking actuator is one or more spring elements for biasing the brake pad towards the second position; and a retaining member movable between a retaining position for retaining the brake pad in the first position and a braking position for releasing the brake pad towards the surface. 9. The rotary shock testing machine of claim 1 , wherein the braking actuator is one of a pneumatic or hydraulic actuator. 10. The rotary shock testing machine of claim 8 , wherein the brake includes a scissor linkage having first and second link arms rotatable relative to each other about a pivot, the brake pad being first and second brake pads rotatably disposed at first ends of the first and second link arms, the first and second brake pads being disposed on each side of the surface, the retaining member being disposed at second ends of the first and second links to constrain movement of the second ends. 11. A method for rotary shock testing one or more specimens, the method comprising: mounting the one or more specimens to be tested to a test disc; applying a rotation to a shaft rotatably connected to the test disc to rotate the test disc; applying a braking force to the test disc to subject the one or more specimens to a rotary shock; and capturing slow motion video of the specimens to be tested at least during the time of applying the braking force. 12. The method of claim 11 , further comprising sensing one or more of position, velocity, acceleration and deceleration of the test disc. 13. The method of claim 11 , wherein the applying of the braking force comprises: retaining a brake pad in a first position away from a surface movable together with the shaft; and moving the brake pad from the first position to a second position engaged with the surface. 14. The method of claim 13 , wherein retaining comprises retaining the brake pad in the first position with a retaining member; wherein the moving of the brake pad to the second position comprises: biasing the brake pad into the second position; and removing a retaining member to allow the brake pad to move to the second position due to the biasing.