Vacuum insulated panel

What is claimed is: 1. A vacuum insulated panel comprising: a fiberglass insulation blanket, comprising; a first binderless web of glass fibers; at least one additional binderless web of glass fibers disposed on the first web of glass fibers; wherein the fibers of the first binderless web are mechanically entangled with the fibers of the at least one additional binderless web; a barrier layer sealed around the fiberglass insulation blanket, wherein gas inside the barrier layer is evacuated such that the fiberglass insulation blanket is compressed, wherein the density of the fiberglass insulation blanket is 2.5 to 6 pcf prior to compression by the barrier layer and the density of the fiberglass insulation blanket is 5 to 7 pcf after compression by the barrier layer, wherein the density of the insulation blanket is greater after compression than prior to compression, and wherein resilience of the fiberglass insulation blanket causes the vacuum insulation panel to expand by 75% or more when the barrier layer is torn. 2. The vacuum insulated panel of claim 1 wherein the fiberglass insulation blanket is not heat-densified or molded. 3. The vacuum insulated panel of claim 1 wherein the fiberglass insulation blanket is flexible, such that outside the barrier layer the fiberglass insulation blanket can be draped over a narrow elongated member that is supported at both ends. 4. The vacuum insulated panel of claim 1 wherein an R value of the finished vacuum insulated panel is 30-50/inch. 5. The vacuum insulated panel of claim 1 wherein the barrier layer compresses the fiber glass insulation by 60 to 70 percent. 6. The vacuum insulated panel of claim 1 wherein the at least one additional binderless web is lapped or cross-lapped on the first binderless web. 7. A method of making a vacuum insulated panel, comprising: forming a continuous, binderless web of glass fibers; depositing a first layer of the continuous web of glass fibers onto a second layer of the continuous web of glass fibers; mechanically entangling the fibers of the first layer with the fibers of the second layer to form a fiberglass insulation blanket; providing a barrier layer around the fiberglass insulation blanket; evacuating gas from inside the barrier layer to compress the fiberglass insulation blanket, wherein the density of the fiberglass insulation blanket is 2.5 to 6 pcf prior to compression by the barrier layer and the density of the fiberglass insulation blanket is 5 to 7 pcf after compression by the barrier layer, wherein the density of the insulation blanket is greater after compression than prior to compression, and wherein resilience of the fiberglass insulation blanket causes the vacuum insulation panel to expand by 75% or more when the barrier layer is torn. 8. The method of claim 7 wherein the fiberglass insulation blanket is not heat-densified or molded. 9. The method of claim 7 wherein the fiberglass insulation blanket is flexible, such that outside the barrier layer the fiberglass insulation blanket can be draped over a narrow elongated member that is supported at both ends. 10. The method of claim 7 wherein an R value of the finished vacuum insulated panel is 30-50/inch. 11. The method of claim 7 wherein the barrier layer compresses the fiber glass insulation by 60 to 70 percent. 12. The method of claim 7 wherein depositing a first layer of the continuous web of glass fibers onto a second layer of the continuous web of glass fibers includes lapping or cross-lapping the first layer onto the second layer. 13. The vacuum insulated panel of claim 1 wherein the fibers of the first binderless web are mechanically entangled with the fibers of the at least one additional binderless web by stitching or needling. 14. The vacuum insulated panel of claim 1 wherein the fiberglass insulation blanket has a thickness, a length, and a width, and wherein the blanket has a ratio (RK) of thermal conductivity in the direction of the thickness of the blanket to the thermal conductivities in the direction of the length and width or the blanket that is greater than 1.0. 15. The method of claim 7 wherein mechanically entangling the fibers of the first layer with the fibers of the second layer includes stitching or needling first and second layer. 16. The method of claim 7 wherein the fiberglass insulation blanket has a thickness, a length, and a width, and wherein the blanket has a ratio (RK) of thermal conductivity in the direction of the thickness of the blanket to the thermal conductivities in the direction of the length and width or the blanket that is greater than 1.0.