Bumper design using shear thickening fluids

What is claimed is: 1. A variable shear control energy absorption system for a vehicle, the system comprising: a vehicle frame component; a primary deformable impact absorber located adjacent the vehicle frame component; a plurality of secondary deformable impact chambers located within the primary deformable impact absorber, each secondary deformable impact chamber comprising a shear thickening fluid that exhibits a decreasing viscosity responsive to an impact force exerting a first range of shear rates, and exhibits an increasing viscosity responsive to an impact force exerting a second range of higher shear rates; at least one elastic relief chamber in fluid communication with the plurality of secondary deformable impact chambers, the elastic relief chamber configured to: temporarily accept the shear thickening fluid from the plurality of secondary deformable impact chambers after the plurality of secondary deformable impact chambers receive an impact force exerting shear rates within the first range, and redirect the shear thickening fluid back to the secondary deformable impact chambers after the impact force recedes. 2. The energy absorption system according to claim 1 , wherein the vehicle frame component defines an interior cavity and the at least one elastic relief chamber is located within the interior cavity. 3. The energy absorption system according to claim 1 , comprising a plurality of elastic relief chambers in respective fluid communication with the plurality of secondary deformable impact chambers. 4. The energy absorption system according to claim 1 , wherein the primary deformable impact absorber defines each of the plurality of secondary deformable impact chambers such that the secondary deformable impact chambers are fully encapsulated within the primary deformable impact absorber. 5. The energy absorption system according to claim 4 , wherein the primary deformable impact absorber comprises at least one of a rubber and a silicone material, and the primary deformable impact absorber is configured to retain its shape after receiving an impact force such that the secondary deformable impact chambers act as a vacuum to transfer the shear thickening fluid from the at least one elastic relief chamber and back to the secondary deformable impact chambers. 6. The energy absorption system according to claim 1 , wherein the vehicle frame component comprises a bumper reinforcement member. 7. The energy absorption system according to claim 1 , further comprising a plurality of transfer tubes providing fluid communication between the plurality of secondary deformable impact chambers and the at least one elastic relief chamber. 8. The energy absorption system according to claim 7 , further comprising a valve disposed in each transfer tube and configured to retain the shear thickening fluid within the secondary deformable impact chambers until the valve is subjected to a predetermined pressure. 9. The energy absorption system according to claim 7 , wherein the vehicle frame component defines a plurality of apertures configured to receive the plurality of transfer tubes. 10. The energy absorption system according to claim 7 , wherein at least two of the transfer tubes have different diameters. 11. The energy absorption system according to claim 7 , comprising a plurality of transfer tubes coupling a single secondary deformable impact chamber to the elastic relief chamber. 12. The energy absorption system according to claim 1 , wherein the shear thickening fluid is configured to instantaneously transition to a solid-like state upon receiving an impact force of greater than about 12 MPH, such that the shear thickening fluid is not capable of passing through to the elastic relief chamber, and the primary deformable impact absorber transfers the impact force to the vehicle frame component. 13. The energy absorption system according to claim 12 , wherein the shear thickening fluid comprises a polyethylene glycol medium with about 60% by weight of 500 nm diameter spherical silica particles. 14. The energy absorption system according to claim 1 , wherein the plurality of secondary deformable impact chambers are arranged in an array pattern, comprising at least one series of chambers extending in a longitudinal direction and at least one series of chambers extending in a vertical direction with respect to the vehicle frame component. 15. A vehicle bumper assembly with a variable shear control energy absorption system, the assembly comprising: a bumper reinforcement member defining an interior cavity; a primary deformable impact absorber adjacent to the bumper reinforcement member; a plurality of secondary deformable impact chambers located within the primary deformable impact absorber, each secondary deformable impact chamber comprising a shear thickening fluid; at least one elastic relief chamber located within the interior cavity of the bumper reinforcement member and in fluid communication with the plurality of secondary deformable impact chambers; wherein the shear thickening fluid is fluidic and exhibits a decreasing viscosity responsive to an impact force exerting less than a predetermined shear rate, and the shear thickening fluid stiffens to a solid-like state and exhibits an increasing viscosity responsive to an impact force exerting greater than the predetermined shear rate. 16. The vehicle bumper assembly according to claim 15 , wherein: upon receiving an impact force in a first, low range of shear stress, the primary and secondary deformable impact chambers are configured to temporarily deform in shape and thereafter return to a rest state, with the shear thickening fluid remaining in a fluidic state in the secondary deformable impact chambers; upon receiving an impact force in a second, medium range of shear stress, the primary deformable impact absorber is configured to compress the secondary deformable impact chambers, and at least a portion of the shear thickening fluid remains in a fluidic state and is transferred to the elastic relief chamber, and redirected back to the secondary deformable impact chambers after the impact force recedes; upon receiving an impact force in a third, high range of shear stress, the shear thickening fluid stiffens to a solid-like state, the secondary deformable impact chambers retain their respective shapes, and the primary deformable chamber transfers the impact force to the bumper reinforcement member. 17. The vehicle bumper assembly according to claim 15 , further comprising a plurality of transfer tubes providing fluid communication between the plurality of secondary deformable impact chambers and the at least one elastic relief chamber. 18. The vehicle bumper assembly according to claim 17 , further comprising a valve disposed in each transfer tube and configured to retain the shear thickening fluid within the secondary deformable impact chambers until the valve is subjected to a predetermined pressure. 19. The vehicle bumper assembly according to claim 17 , wherein at least two of the transfer tubes have different diameters. 20. The vehicle bumper assembly according to claim 15 , further comprising a flexible bumper fascia cover.