Thermoformable three dimensional retroreflective article and method of manufacture

What is claimed is: 1. A three dimensional article having a high intensity retroreflective outer surface, comprising: a base layer of thermoformable plastic sheet material; a layer of retroreflective microbeads having a variation in diameter adhered to an outer surface of said base layer, and a protective sheet of transparent thermoformable sheet material overlying said layer of microbeads, wherein said protective sheet engages a top surface of some of the microbeads to form airspaces and create infrequent tangential point contact between at least a portion of said protective sheet and said some of the microbeads, wherein said base layer, layer of microbeads, and protective transparent sheet are formed into a self supporting three dimensional article having a pre-selected shape and an encapsulated bead retroreflective surface having a reflectivity of at least about 200 lux, wherein the protective sheet comprises glycol-modified polyethylene terephthalate (PETG); and wherein the protective sheet has a thickness of 20 mils to 30 mils. 2. The three dimensional article of claim 1 , wherein said protective sheet fusingly engages a top surface of some of the microbeads. 3. The three dimensional article of claim 1 , wherein the retroreflective microbeads have an average diameter of between about 2 and 4 mils are adhered to said base layer of thermoformable plastic sheet material by a cushion coat. 4. The three dimensional article of claim 3 , wherein the cushion coat comprises a polyvinyl copolymer, a thermoplastic polyurethane, and an aminoplast resin. 5. The three dimensional article of claim 1 , wherein the thickness of the base layer is between about 4 to 12 times an average diameter of the microbeads. 6. The three dimensional article of claim 1 , wherein the thickness of the protective sheet is between about 2 to 10 times an average diameter of the microbeads. 7. The three dimensional article of claim 1 , wherein the base layer is formed from glycol-modified polyethylene terephthalate (PETG). 8. The three dimensional article of claim 1 , wherein the microbeads have a silvered side that is adheringly engaged to said base layer by means of a thermoformable cushion coat. 9. The three dimensional article of claim 8 , wherein the cushion coat comprises a polyvinyl copolymer, a thermoplastic polyurethane, and an aminoplast resin. 10. The three dimensional article of claim 1 having airspaces between the protective sheet and at least half of the microbeads. 11. The three dimensional article of claim 1 , wherein the thickness of the protective sheet is between about 4 to 8 times an average diameter of the microbeads. 12. A thermoformable, high intensity retroreflective laminate, comprising: a base sheet of thermoformable plastic; a layer of retroreflective microbeads having a variation in diameter adhered over one surface of the base sheet; a protective sheet of clear thermoformable plastic laminated over said layer of retroreflective beads, wherein said protective sheet engages a top surface of some of the microbeads to form airspaces and create infrequent tangential point contact between at least a portion of said protective sheet and said some of the microbeads, wherein said laminate is thermoformable into a contoured, three dimensional article having an encapsulated bead surface with a reflectivity of at least 200 lux, wherein the protective sheet comprises glycol-modified polyethylene terephthalate (PETG); and wherein the protective sheet has a thickness of 20 mils to 30 mils. 13. The high intensity retroreflective laminate of claim 12 , wherein said base layer of sheet material has a thickness of between about 4 and 12 times an average diameter of the microbeads. 14. The high intensity retroreflective laminate of claim 12 , wherein the thickness of the protective sheet is between about 2 to 10 times an average diameter of the microbeads. 15. The high intensity retroreflective laminate of claim 12 , wherein the retroreflective microbeads have an average diameter of between about 2 and 4 mils and are adhered to said layer of thermoformable plastic sheet material by a cushion coat. 16. The high intensity retroreflective laminate of claim 15 , wherein the cushion coat comprises a polyvinyl copolymer, a thermoplastic polyurethane, and an aminoplast resin. 17. The high intensity retroreflective laminate of claim 12 , wherein the base layer is formed from PETG. 18. The high intensity retroreflective laminate of claim 12 , wherein the microbeads are semi-silvered, having a silvered side that is adheringly engaged to said base layer by means of a thermoformable cushion coat. 19. The high intensity retroreflective laminate of claim 18 , wherein the cushion coat comprises a polyvinyl copolymer, a thermoplastic polyurethane, and an aminoplast resin. 20. The laminate of claim 12 having airspaces between the protective sheet and at least half of the microbeads. 21. The high intensity retroreflective laminate of claim 12 , wherein the thickness of the protective sheet is between about 4 to 8 times an average diameter of the microbeads. 22. A thermoformable, high intensity retroreflective laminate, comprising: a base sheet of thermoformable plastic; a layer of retroreflective microbeads adhered over one surface of the base sheet by way of a thermoformable cushion coat, each of said beads having a semisilvered side engaging the cushion coat; a protective sheet of clear thermoformable plastic laminated over and in contact with said layer of retroreflective beads, wherein said protective sheet engages a top surface of some of the microbeads to form airspaces and create infrequent tangential point contact between at least a portion of said protective sheet and said some of the microbeads, wherein said laminate is capable of being formed into a contoured, three dimensional article having an encapsulated bead surface with a reflectivity of at least 200 lux, said base layer of sheet material has a thickness of between about 4 and 12 times an average diameter of the microbeads, and the thickness of the protective sheet is between about 2 to 10 times an average diameter of the microbeads; wherein the protective sheet comprises glycol-modified polyethylene terephthalate (PETG); and wherein the protective sheet has a thickness of 20 mils to 30 mils. 23. The thermoformable, high intensity retroreflective laminate defined in claim 22 , wherein said cushion coat includes a phosphorescent pigment to enhance the reflectivity of said surface. 24. The laminate of claim 22 having airspaces between the protective sheet and at least half of the microbeads. 25. The high intensity retroreflective laminate of claim 22 , wherein the thickness of the protective sheet is between about 4 to 8 times the average diameter of the microbeads. 26. The high intensity retroreflective laminate of claim 23 , wherein the cushion coat comprises a polyvinyl copolymer, a thermoplastic polyurethane, and an aminoplast resin. 27. The high intensity retroreflective laminate of claim 22 , wherein the cushion coat comprises a polyvinyl copolymer, a thermoplastic polyurethane, and an aminoplast resin. 28. A thermoformable retroreflective laminate for substantially non-planar articles, comprising; a first thermoformable layer having first and second sides; a plurality of non-uniformly sized microbeads dispo