Composite thermal management sheet, method of manufacture, and articles using the same

What is claimed is: 1. A composite thermal management sheet for a battery, the composite thermal management sheet comprising: a single silicone foam layer; and a reactive filler composition disposed within the single silicone foam layer, the reactive filler composition comprising a first filler that decomposes to generate water upon initial exposure to heat; and a second filler different from the first filler, wherein the second filler forms a thermal barrier layer with a decomposition product of the first filler, or absorbs the water, or both, wherein the composite thermal management sheet is a single layer and does not comprise another layer on the single silicone foam layer. 2. The composite thermal management sheet of claim 1 , wherein the thermal barrier layer comprises a borosilicate glass layer. 3. The composite thermal management sheet of claim 2 , wherein the borosilicate glass comprises silicon derived from decomposition of the silicone foam layer. 4. The composite thermal management sheet of claim 1 , wherein the reactive filler composition comprises aluminum trihydrate and zinc borate. 5. The composite thermal management sheet of claim 1 , having a thickness of 1 to 6 millimeters. 6. The composite thermal management sheet of claim 1 , having a density of 5 to 65 pounds per cubic foot (80 to 1,041 kilograms per cubic meter); a compression force deflection of 0.2 to 125 pounds per square inch (1 to 862 kilopascals), at 25% deflection and determined in accordance with ASTM D3574-17; a compression set of 0 to 15%, determined in accordance with ASTM D 3574-95 Test D at 70° C.; or a combination thereof. 7. The composite thermal management sheet of claim 1 , wherein the reactive filler composition consists of aluminum trihydrate and zinc borate. 8. An assembly for a battery, comprising a first electrochemical cell comprising a first surface and a second surface opposite the first surface; an adjacent second electrochemical cell comprising a first surface facing the first electrochemical cell and a second surface opposite the first surface; and the composite thermal management sheet of claim 1 disposed directly on the first surface of the first electrochemical cell, and the first surface of the adjacent second electrochemical cell. 9. A composite thermal management sheet for a battery, the composite thermal management sheet comprising: a silicone foam layer; and a reactive filler composition disposed within the silicone foam layer, the reactive filler composition comprising a first filler that decomposes to generate water upon initial exposure to heat, and a second filler different from the first filler, wherein the second filler forms a thermal barrier layer comprising a borosilicate glass layer with a decomposition product of the first filler, wherein the composite thermal management does not comprise another layer on the silicone foam layer. 10. A composite thermal management sheet for a battery, the composite thermal management sheet comprising: a silicone foam layer; and a reactive filler composition disposed within the silicone foam layer, the reactive filler composition comprising borax and hydrous sodium silicate, or comprising aluminum trihydrate, zinc borate, and hydrous sodium silicate, or comprising borax and zinc borate, or comprising borax, zinc borate, and aluminum trihydrate, or comprising a superabsorbent polymer, or consisting of aluminum trihydrate and zinc borate, wherein the composite thermal management does not comprise another layer on the silicone foam layer. 11. The composite thermal management sheet of claim 10 , wherein the reactive filler composition comprises the superabsorbent polymer and a different reactive filler, the superabsorbent polymer, the different reactive filler, or both decomposes to generate water upon initial exposure to heat, and the superabsorbent polymer forms a thermal barrier layer with a decomposition product of the different filler, or absorbs the water, or both; the different filler forms a thermal barrier layer with a decomposition product of the superabsorbent polymer, or absorbs the water, or both; or both. 12. The composite thermal management sheet of claim 10 , wherein the reactive filler composition consists of aluminum trihydrate and zinc borate. 13. The composite thermal management sheet of claim 10 , wherein the first filler and the second filler are aluminum trihydrate, ammonium nitrate, borax, hydrous sodium silicate, magnesium hydroxide, magnesium carbonate hydroxide pentahydrate, magnesium phosphate tribasic octahydrate, zinc borate, waterglass, or a combination thereof; and the superabsorbent polymer. 14. The composite thermal management sheet of claim 13 , wherein the reactive filler composition comprises aluminum trihydrate, hydrous sodium silicate, magnesium carbonate hydroxide pentahydrate, magnesium phosphate tribasic octahydrate, waterglass, or a combination thereof; and the superabsorbent polymer. 15. The composite thermal management sheet of claim 13 , wherein the reactive filler composition comprises ammonium nitrate, borax, hydrous sodium silicate, magnesium hydroxide, magnesium carbonate hydroxide pentahydrate, magnesium phosphate tribasic octahydrate, zinc borate, or a combination thereof; and the superabsorbent polymer. 16. The composite thermal management sheet of claim 13 , wherein the reactive filler composition comprises aluminum trihydrate; and the superabsorbent polymer. 17. The composite thermal management sheet of claim 10 , wherein the reactive filler composition comprises borax and hydrous sodium silicate. 18. The composite thermal management sheet of claim 10 , wherein the reactive filler composition comprises aluminum trihydrate, zinc borate, and hydrous sodium silicate. 19. The composite thermal management sheet of claim 10 , wherein the reactive filler composition comprises borax and zinc borate. 20. The composite thermal management sheet of claim 10 , wherein the reactive filler composition comprises borax, zinc borate, and aluminum trihydrate.