Claims
- 1. A spring having force levels varying by less than 30% over more than 40% of maximum deflection capacity during loading, comprising a pseudoelastic element with at least one bent location which is subjected to pre-strains which are at least partly reversible through reverse bending followed by restraining the pseudoelastic element against recovery of original shape.
- 2. A spring according to claim 1, wherein said force levels vary by less than 30% over more than 40% of maximum deflection capacity during unloading.
- 3. A spring according to claim 1, wherein said pseudoelastic element has a curved memory shape with the curvature reversed for the application of said pre-strains.
- 4. A spring according to claim 1, wherein said pseudoelastic element has a memory shape with at least one bent location which is subjected to reverse bending for the application of said pre-strains.
- 5. The spring according to claim 1, wherein said pseudoelastic element has a rectangular cross section.
- 6. The spring according to claim 1, wherein said pseudoelastic element has a circular cross section.
- 7. The spring according to claim 1, wherein said pseudoelastic element has an elliptical cross section.
- 8. The spring according to claim 1, wherein said pseudoelastic alloy is formed of elements selected from the group consisting essentially of Ni, Ag, Au, Cd, In, Ga, Si, Ge, gn, gb, Zn, Nb, Cu, Co, Fe, Mn, Pt, Al, Ti, Cr, Be, C and Tl, and combinations thereof.
- 9. The spring according to claim 1, wherein said pseudoelastic element has been cold-worked and then heat treated when restrained in order to assume a memory shape prior to the application of said pre-strains.
- 10. The spring according to claim 1, wherein said pseudoelastic element has been heat treated in free condition after establishment of a memory shape and prior to the application of said pre-strains.
- 11. The spring according to claim 1, wherein said pseudoelastic element has been heat treated after the application of said pre-strains.
- 12. The spring according to claim 1, wherein said pre-strains are removed and re-applied at least once.
- 13. The spring according to claim 1, wherein said force levels are subjected to at least one cycle of application, removal and re-application for improving stability under cyclic load application.
- 14. A brush holder incorporating a spring having force levels varying by less than 30% over more than 40% of maximum deflection capacity during loading, with said spring comprising a pseudoelastic element with at least one bent location which is subjected to pre-strains which are at least partly reversible through reverse bending followed by restraining the pseudoelastic spring against recovery of original shape.
- 15. A brush holder according to claim 14, wherein said force levels of said spring very by less than 30% over more than 40% of maximum deflection capacity during unloading.
- 16. A brush holder according to claim 14, wherein said pseudoelastic spring is at least partly fixed against lateral deflections.
Government Interests
This invention was made with U.S. government support under N00167-99-C0054 awarded by the U.S. Navy. The U.S. government has certain rights in the invention.
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