Back breakover rate control device for HIC/NIJ damage reduction

We claim: 1. A device for controlling the breakover rate of a seatback, comprising: at least one bracket rigidly attachable to a seatback of a seat, the at least one bracket including at least one opening configured to accept at least one pin fixed to the seat and capable of transmitting a breakover energy associated with the seatback and corresponding to a dynamic event, the opening having at least one of a first diameter and a first volume, the at least one bracket including at least one breakover control element having at least one of a second diameter greater than the first diameter and a second volume greater than the first volume, the breakover control element configured to be driven by the at least one pin through the opening to at least one of a) restrict a breakover velocity of the seatback and b) absorb at least a portion of the breakover energy by deforming at a predetermined deformation rate. 2. The device of claim 1 , wherein the at least one breakover control element is configured to engage the at least one pin by deforming at a variable deformation rate in response to the at least one pin, the variable deformation rate within a predetermined range of deformation rates. 3. The device of claim 1 , wherein the at least one breakover control element is removably insertable in the at least one opening and configured to engage the at least one pin via directed deformation. 4. The device of claim 1 , wherein the at least one breakover control element is configured to fail upon absorption of a predetermined load. 5. A device for controlling a breakover rate of a seatback, comprising: at least one bracket rigidly attachable to a seatback of a seat, the at least one bracket including at least one opening configured to accept at least one pin fixed to the seat and capable of transmitting a breakover energy associated with the seatback and corresponding to a dynamic event, the at least one bracket including one or more breakover control elements configured to be driven by the at least one pin through the opening extending into the at least one opening and configured for engaging the at least one pin to at least one of a) restrict a breakover velocity of the seatback and b) absorb at least a portion of the breakover energy by deforming at a predetermined deformation rate, the one or more breakover control elements comprising: at least one first breakover control element configured to engage the at least one pin by deforming in response to the at least one pin; and at least one second breakover control element configured to engage the at least one first breakover control element by deforming in response to the deforming of the at least one first breakover control element.