Impact features

What is claimed is: 1. A vehicle platform comprising: a frame structure comprising multiple interconnected structural elements forming a body having a front portion, a rear portion, and a central portion; and wherein the front portion comprises: an upper load path comprising an upper energy absorption unit, the upper energy absorption unit comprising a first crush zone configured to compact relative to the front portion of the body while absorbing energy from an impact force; and a lower load path comprising a lower energy absorption unit, the lower energy absorption unit comprising (i) a second crush zone configured to compact relative to the front portion of the body while absorbing energy from the impact force and (ii) a bending zone configured to bend and deflect subsequent energy not absorbed by the second crush zone, wherein at least one of the upper energy absorption unit in the upper load path and the lower energy absorption unit in the lower load path comprises an overlapping interface that includes a tunable crush control element having a body coupled to a portion of the frame structure within the overlapping interface and configurable to crush a predetermined range from receipt of the impact force. 2. The vehicle platform of claim 1 , wherein the lower load path comprises the tunable crush control element between the second crush zone and the bending zone, the tunable crush control element configured to control an amount of compaction that occurs in the second crush zone. 3. The vehicle platform of claim 1 , wherein the upper load path comprises the tunable crush control element between the upper energy absorption unit and a portion of the frame structure. 4. The vehicle platform of claim 1 , further comprising: a lower deflection element extending outward and rearward from a front end of the frame structure at an angle such that the lower deflection element progressively diverges from the frame structure, the lower deflection element configured to deflect impact energy in a direction away from the frame structure. 5. The vehicle platform of claim 1 , further comprising: an upper deflection element extending outward from the frame structure, the upper deflection element configured to move inward towards the frame structure during an impact, the upper deflection element comprising a spacer configured to stop deformation of the upper deflection element by contacting a portion of the frame structure during the deformation. 6. The vehicle platform of claim 1 , further comprising: multiple support elements disposed within the frame structure, at least two of the support elements disposed within a front transition portion of the frame structure and configured to contact each during an impact. 7. The vehicle platform of claim 1 , wherein the central portion is formed using at least a first lateral element and a second lateral element. 8. The vehicle platform of claim 1 , further comprising: at least one side impact energy absorption unit, each side impact energy absorption unit comprising: an elongated casing element; crush cans attached to a front backing plate and a rear backing plate such that the front and rear backing plates close off the crush cans, each of the front and rear backing plates attached to an inner surface of the elongated casing element; and bulkheads disposed on at least one side of the crush cans and running parallel to the crush cans. 9. The vehicle platform of claim 1 , wherein: the interconnected structural elements comprise side rails; and the rear portion comprises reinforcement patches disposed along the side rails and configured to reduce bending during a rear impact. 10. A vehicle comprising: a vehicle body; and a vehicle platform coupled to the vehicle body, the vehicle platform comprising: a frame structure comprising multiple interconnected structural elements forming a body having a front portion, a rear portion, and a central portion; and wherein the front portion comprises: an upper load path comprising an upper energy absorption unit, the upper energy absorption unit comprising a first crush zone configured to compact relative to the front portion of the body while absorbing energy from an impact force; and a lower load path comprising a lower energy absorption unit, the lower energy absorption unit comprising (i) a second crush zone configured to compact relative to the front portion of the body while absorbing energy from the impact force and (ii) a bending zone configured to bend and deflect subsequent energy not absorbed by the second crush zone, wherein at least one of the upper energy absorption unit in the upper load path and the lower energy absorption unit in the lower load path comprises an overlapping interface that includes a tunable crush control element having a body coupled to a portion of the frame structure within the overlapping interface and configurable to crush a predetermined range from receipt of the impact force. 11. The vehicle of claim 10 , wherein the lower load path comprises the tunable crush control element between the second crush zone and the bending zone, the tunable crush control element configured to control an amount of compaction that occurs in the second crush zone. 12. The vehicle of claim 10 , wherein the upper load path comprises the tunable crush control element between the upper energy absorption unit and a portion of the frame structure. 13. The vehicle of claim 10 , wherein the vehicle platform further comprises: a lower deflection element extending outward and rearward from a front end of the frame structure at an angle such that the lower deflection element progressively diverges from the frame structure, the lower deflection element configured to deflect impact energy in a direction away from the frame structure. 14. The vehicle of claim 10 , wherein the vehicle platform further comprises: an upper deflection element extending outward from the frame structure, the upper deflection element configured to move inward towards the frame structure during an impact, the upper deflection element comprising a spacer configured to stop deformation of the upper deflection element by contacting a portion of the frame structure during the deformation. 15. The vehicle of claim 10 , wherein the vehicle platform further comprises: multiple support elements disposed within the frame structure, at least two of the support elements disposed within a front transition portion of the frame structure and configured to contact each during an impact. 16. The vehicle of claim 10 , wherein: the central portion is formed using at least a first lateral element and a second lateral element. 17. The vehicle of claim 10 , wherein the vehicle platform further comprises: at least one side impact energy absorption unit, each side impact energy absorption unit comprising: an elongated casing element; crush cans attached to a front backing plate and a rear backing plate such that the front and rear backing plates close off the crush cans, each of the front and rear backing plates attached to an inner surface of the elongated casing element; and bulkheads disposed on at least one side of the crush cans and running parallel to the crush cans. 18. The vehicle of claim 10 , wherein: the interconnected structural elements comprise side rails; and the rear portion comprises reinforcement patches disposed along the side rails and configured to reduce bending during a rear impact.