A cover covering an object includes an inner surface of the cover facing the object and spaced from the object, and an outer surface of the cover opposite the inner surface. A local energy absorber is operatively attached to the inner surface of the cover. The local energy absorber includes an energ
A cover covering an object includes an inner surface of the cover facing the object and spaced from the object, and an outer surface of the cover opposite the inner surface. A local energy absorber is operatively attached to the inner surface of the cover. The local energy absorber includes an energy absorbing core layer operatively attached to the inner surface of the cover and a frangible face sheet layer attached to the energy absorbing core layer facing the object. The frangible face sheet layer is to initiate fracture of the frangible face sheet layer during an impact applied to the outer surface defining an impact event having a duration of less than 20 milliseconds.
대표청구항▼
1. A cover, removably covering a covered object, comprising: an inner surface of the cover facing the covered object and spaced from the covered object, and an outer surface of the cover opposite the inner surface; anda local energy absorber operatively attached to the inner surface of the cover, th
1. A cover, removably covering a covered object, comprising: an inner surface of the cover facing the covered object and spaced from the covered object, and an outer surface of the cover opposite the inner surface; anda local energy absorber operatively attached to the inner surface of the cover, the local energy absorber including: an energy absorbing core layer operatively attached to the inner surface of the cover;a frangible face sheet layer attached to the energy absorbing core layer facing the covered object, the frangible face sheet layer initiates fracture during an impact applied to the outer surface defining an impact event having a duration of less than 20 milliseconds;a reinforcement sheet layer attached to the energy absorbing core layer opposite to the frangible face sheet layer to sandwich the energy absorbing core layer between the frangible face sheet layer and the reinforcement sheet layer; anda plurality of struts, each strut attached to the reinforcement sheet layer and to the frangible face sheet layer, wherein the local energy absorber further includes a subset of the plurality of struts that, during the impact event, deforms in a sequence beginning with elastic deformation, followed by buckling, followed by fracture of the subset of the plurality of struts. 2. The cover as defined in claim 1 wherein each of the plurality of struts is located at a perimeter of the local energy absorber. 3. The cover as defined in claim 1 wherein each of the plurality of struts is spaced from a perimeter of the local energy absorber. 4. The cover as defined in claim 1 wherein: the energy absorbing core layer includes a 3003 aluminum alloy with a crush strength of about 45 pounds per square inch (psi);each strut in the plurality of struts is formed from Magnesium AZ31-O;the frangible face sheet layer includes a first Magnesium AZ31-O sheet; andthe reinforcement sheet layer is formed from a polymer. 5. The cover as defined in claim 1 wherein the frangible face sheet layer defines at least one stress concentrating notch in a surface of the frangible face sheet layer, the at least one stress concentrating notch to be a fracture initiation site on the frangible face sheet layer during the impact event. 6. The cover as defined in claim 1 wherein the frangible face sheet layer defines a perimeter of at least one slot through a thickness of the frangible face sheet layer, the at least one slot to be a fracture initiation site on the frangible face sheet layer during the impact event. 7. The cover as defined in claim 1 wherein: the local energy absorber is to contact the covered object during the impact event; andthe frangible face sheet layer is to dissipate energy by bending and fracturing during the contact with the covered object. 8. The cover as defined in claim 1, further comprising a layer of adhesive disposed between the local energy absorber and the inner surface of the cover to attach the local energy absorber to the inner surface of the cover by adhesive bonding. 9. The cover as defined in claim 1 wherein the local energy absorber further includes an adhesive layer disposed between the energy absorbing core layer and the frangible face sheet layer to attach the frangible face sheet layer to the energy absorbing core layer by adhesive bonding. 10. The cover as defined in claim 1 wherein the cover is a vehicle hood, and the covered object is an underhood object. 11. The cover as defined in claim 1 wherein the cover is a helmet, and the covered object is a head of a wearer of the helmet. 12. A cover, removably covering a covered object, comprising: an inner surface of the cover facing the covered object and spaced from the covered object, and an outer surface of the cover opposite the inner surface; anda local energy absorber operatively attached to the inner surface of the cover, the local energy absorber including: an energy absorbing core layer operatively attached to the inner surface of the cover, the energy absorbing core layer including a matrix of open cells;a frangible face sheet layer attached to the energy absorbing core layer facing the covered object, the frangible face sheet layer initiates fracture during an impact applied to the outer surface defining an impact event having a duration of less than 20 milliseconds; anda reinforcement sheet layer attached to the energy absorbing core layer opposite to the frangible face sheet layer to sandwich the energy absorbing core layer between the frangible face sheet layer and the reinforcement sheet layer, wherein each open cell in the matrix of open cells defines a respective hollow tube having a respective longitudinal axis with a respective first open end and a respective second open end and each respective longitudinal axis is perpendicular to the frangible face sheet layer. 13. The cover as defined in claim 12 wherein: the energy absorbing core layer includes a first core portion having a first crush strength, and a second core portion having a second crush strength at least 10 percent greater than the first crush strength; andthe first core portion is attached to the frangible face sheet;the second core portion is attached to the frangible face sheet; andthe first core portion is adjacent to the second core portion. 14. The cover as defined in claim 12 wherein the frangible face sheet layer includes a magnesium alloy sheet. 15. The cover as defined in claim 14 wherein the magnesium alloy sheet is formed from Magnesium AZ31-O. 16. The cover as defined in claim 12 wherein the frangible face sheet layer defines at least one stress concentrating notch in a surface of the frangible face sheet layer, the at least one stress concentrating notch to be a fracture initiation site on the frangible face sheet layer during the impact event. 17. The cover as defined in claim 12 wherein the frangible face sheet layer defines a perimeter of at least one slot through a thickness of the frangible face sheet layer, the at least one slot to be a fracture initiation site on the frangible face sheet layer during the impact event. 18. The cover as defined in claim 12 wherein: the local energy absorber is to contact the covered object during the impact event; andthe frangible face sheet layer is to dissipate energy by bending and fracturing during the contact with the covered object. 19. A cover, removably covering a covered object, comprising: an inner surface of the cover facing the covered object and spaced from the covered object, and an outer surface of the cover opposite the inner surface; anda local energy absorber operatively attached to the inner surface of the cover, the local energy absorber including: an energy absorbing core layer operatively attached to the inner surface of the cover, the energy absorbing core layer including an aluminum alloy honeycomb;a frangible face sheet layer attached to the energy absorbing core layer facing the covered object, the frangible face sheet layer initiates fracture during an impact applied to the outer surface defining an impact event having a duration of less than 20 milliseconds; anda reinforcement sheet layer attached to the energy absorbing core layer opposite to the frangible face sheet layer to sandwich the energy absorbing core layer between the frangible face sheet layer and the reinforcement sheet layer, wherein:a reinforcement sheet seal is formed at a reinforcement interface between the reinforcement sheet layer and the aluminum honeycomb; anda face sheet seal is formed at a face sheet interface between the frangible face sheet layer and the aluminum alloy honeycomb to prevent water from entering the aluminum alloy honeycomb. 20. The cover as defined in claim 19 wherein the frangible face sheet layer includes a magnesium alloy sheet. 21. The cover as defined in claim 19 wherein the frangible face sheet layer defines at least one stress concentrating notch in a surface of the frangible face sheet layer, the at least one stress concentrating notch to be a fracture initiation site on the frangible face sheet layer during the impact event. 22. The cover as defined in claim 19 wherein the frangible face sheet layer defines a perimeter of at least one slot through a thickness of the frangible face sheet layer, the at least one slot to be a fracture initiation site on the frangible face sheet layer during the impact event.
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이 특허에 인용된 특허 (37)
Hundley, Jacob M.; Mankame, Nilesh D.; Jacobsen, Alan J.; Clough, Eric C.; Muhammad, Hanif; Brown, Stuart J.; Berger, Elisabeth J., Architected automotive impact beam.
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