Methods for manufacturing magnetic composite structures with high mechanical strength

The invention claimed is: 1. A method of fabricating a magnetic composite structure, comprising: providing a plurality of permanent magnet particles; providing a fiber; combining said permanent magnet particles with said fiber, the plurality of permanent magnet particles configured in a layer having a thickness of a single permanent magnet particle in the plurality of permanent magnet particles; providing a polymer matrix; providing said fiber in said polymer matrix; forming an inner tube of the fiber; and forming an outer tube of the fiber, wherein the inner tube comprises a greater coefficient of thermal expansion than the outer tube. 2. The method of claim 1 further comprising winding the fiber. 3. The method of claim 1 wherein the combining the permanent magnet particles with the fiber comprises placing the permanent magnet particles in the inner tube. 4. The method of claim 1 wherein the combining the permanent magnet particles with the fiber comprises pressing the permanent magnet particles onto an exterior surface of the fiber. 5. The method of claim 1 wherein the providing a fiber comprises providing a multi-layered sheet, rolling the multi-layered sheet and forming the multi-layered sheet into an elongated fiber. 6. The method of claim 1 , wherein forming the inner tube of the fiber by providing a first molten or softened material in a first feed tank and delivering the first molten or softened material through a middle nozzle and an exit. 7. The method of claim 6 , wherein forming outer tube of the fiber by providing a second molten or softened material in a second feed tank and delivering the second molten or softened material through an outer nozzle and the exit. 8. The method of claim 7 , further comprising: forming permanent magnetic particles in the inner tube by delivering magnetic particles through an inner nozzle and the exit. 9. The method of claim 1 , further comprising: providing fiber material in a furnace and a forehearth through an entrance for fiber material; providing magnetic particles in the forehearth through the entrance for magnetic particles; and distributing the fiber material and the magnetic particles through a nozzle. 10. The method of claim 9 further comprising providing electromagnets around the forehearth and exerting an electromagnetic field on the magnetic particles in the forehearth. 11. The method of claim 1 , wherein the magnetic composite structure comprises a permanent magnetic structure, the method further comprising: providing preform including fiber material slab; inserting magnetic particles into the preform; inserting the preform into an extruder; softening the fiber material slab; and extruding fiber from the fiber material slab. 12. The method of claim 11 , further comprising applying a magnetic field to magnetize the magnetic particles in the same direction. 13. A method of fabricating a magnetic fiber structure, comprising: providing an extruder apparatus comprising: a triple nozzle having an exit and an outer nozzle, a middle nozzle and an inner nozzle communicating with the exit; a first feed tank disposed in fluid communication with the middle nozzle; a second feed tank disposed in fluid communication with the outer nozzle; and forming an inner tube of the magnetic fiber structure by providing a first molten or softened material in the first feed tank and delivering the first molten or softened material through the middle nozzle and the exit; forming an outer tube of the magnetic fiber structure by providing a second molten or softened material in the second feed tank and delivering the second molten or softened material through said outer nozzle and the exit, the first and second molten or softened material each comprising the magnetic fiber structure in a polymer matrix; and forming permanent magnetic particles in the inner tube by delivering magnetic particles through the inner nozzle and the exit wherein the inner tube comprises a greater coefficient of thermal expansion than the outer tube, the permanent magnet particles configured in a layer having a thickness of a single permanent magnet particle in the permanent magnet particles. 14. A method of fabricating a permanent magnetic structure, comprising: providing an extruder apparatus comprising: a furnace; a forehearth communicating with the furnace; a nozzle communicating with the forehearth; an entrance for fiber material communicating with the furnace; and an entrance for magnetic particles communicating with the forehearth; and providing fiber material in the furnace and the forehearth through the entrance for fiber material; providing magnetic particles in the forehearth through the entrance for magnetic particles, the magnet particles configured in a layer having a thickness of a single magnet particle in the magnet particles; providing the fiber material in a polymer matrix; and distributing the fiber material and the magnetic particles through the nozzle, wherein the fiber material comprises an inner tube and an outer tube, and wherein the inner tube comprises a greater coefficient of thermal expansion than the outer tube. 15. The method of claim 14 further comprising providing electromagnets around the forehearth and exerting an electromagnetic field on the magnetic particles in the forehearth. 16. A method of fabricating a permanent magnetic structure, comprising: providing preform including fiber material slab, the fiber material slab comprising a polymer matrix; inserting magnetic particles into the preform, the magnet particles configured in a layer having a thickness of a single permanent magnet particle in the magnet particles; inserting the preform into an extruder; softening the fiber material slab; and extruding fiber from the fiber material slab, wherein the fiber comprises an inner tube and an outer tube, and wherein the inner tube comprises a greater coefficient of thermal expansion than the outer tube. 17. The method of claim 16 further comprising applying a magnetic field to magnetize the magnetic particles in the same direction.