Dry friction damped metallic material and methods of manufacturing and using same

What is claimed is: 1. A dry friction damped material for use in an article, the material comprising: a metallic substrate having first and second sides; and a woven mesh at least partially embedded in said first side of said substrate, said woven mesh comprising an array of interwoven longitudinal and transverse ropes having outer surfaces, said ropes formed from a plurality of bundled wires, wherein said ropes are firmly locked in said substrate with said substrate flowing over said outer surfaces of said ropes without infiltrating in between said bundled wires of each of said ropes, and wherein sliding movement of the surfaces of the wires relative to one another dampens resonant vibration of the article. 2. The dry friction damped material for use in an article of claim 1 wherein each of said ropes is encased within single layer of outer metal sheathing. 3. The dry friction damped material for use in an article of claim 1 further including a second woven mesh attached to said second side of said substrate. 4. The dry friction damped material for use in an article of claim 3 wherein said second woven mesh is attached to said second side of said substrate by at least partially embedding said second woven mesh in said second side of said substrate. 5. The dry friction damped material for use in an article of claim 1 wherein said bundled wires are arranged linearly or helically. 6. A dry friction damped material for use in an article, the material comprising: a metallic substrate having first and second sides; a woven mesh at least partially embedded in said first side of said substrate, said woven mesh comprising an array of metallic longitudinal ropes interwoven with an array of metallic transverse ropes having outer surfaces, at least one of said ropes formed from a plurality of bundled wires and encased within a single layer of outer metal sheathing, wherein said ropes are firmly locked in said substrate with said substrate flowing over said outer surfaces of said ropes without infiltrating said sheathing, and wherein sliding movement of the surfaces of the wires relative to one another or to the inner surfaces of said sheathing dampens resonant vibration of the article. 7. The dry friction damped material for use in an article of claim 6 wherein at least one of said ropes includes a single wire. 8. The dry friction damped material for use in an article of claim 6 wherein each of said ropes includes a plurality of bundled wires. 9. The dry friction damped material for use in an article of claim 6 wherein said plurality of wires is arranged linearly or helically. 10. The dry friction damped material for use in an article of claim 6 wherein each of said ropes is encased within an outer sheathing. 11. The dry friction damped material for use in an article of claim 6 further including a second woven mesh attached to said second side of said substrate. 12. The dry friction damped material for use in an article of claim 11 wherein said second woven mesh is attached to said second side of said substrate by at least partially embedding said second woven mesh in said second side of said substrate. 13. A method for forming a dry friction damped material for use in an article, the method comprising: forming a metal substrate having first and second sides; forming a plurality of ropes having outer surfaces, each rope comprising a plurality of bundled wires; encasing at least one of said ropes within a single layer of outer metal sheathing; interweaving said ropes in longitudinal and transverse directions to form an interwoven mesh layer; and at least partially embedding said mesh layer on said first side of said substrate to firmly lock said ropes in said substrate with said substrate flowing over said outer surfaces of said ropes without infiltrating in between said bundled wires, wherein sliding movement of the surfaces of the wires relative to one another dampens resonant vibration of the article. 14. The method for forming a dry friction damped material for use in an article of claim 13 including encasing each of said plurality of wires in an outer metal sheathing to form sheathed ropes. 15. The method for forming a dry friction damped material for use in an article of claim 13 wherein said interwoven mesh layer is a first layer and the method further including interweaving said ropes in longitudinal and transverse directions to form a second interwoven mesh layer and at least partially embedding said second woven mesh layer on said second side of said substrate. 16. The method for forming a dry friction damped material for use in an article of claim 13 including attaching said woven mesh layer to said substrate by a method selected from the group consisting of rolling, forming and extruding. 17. The method for forming a dry friction damped material for use in an article of claim 13 including the further step of bonding an outer surface of said woven mesh layer to said substrate by a method selected from the group consisting of soldering and brazing. 18. The method for forming a dry friction damped material for use in an article of claim 13 including the step of coating said ropes with a soldering material without infiltrating inside said ropes before embedding said ropes into said substrate.