Fire-class reinforced aerogel compositions

What is claimed is: 1. A reinforced silica-based aerogel material comprising: an open-cell macroporous framework (OCMF); an aerogel disposed within the OCMF, the aerogel comprising silica; and an endothermic fire-class additive disposed within the aerogel, wherein the endothermic fire-class additive decomposes, including absorbing energy via water during dehydration of the additive, at a temperature of at least 350 degrees Celsius (° C.); and wherein the reinforced silica-based aerogel material has an onset of thermal decomposition within 50 degrees of the fire-class additive. 2. The aerogel of claim 1 , wherein the endothermic fire-class additive decomposes at the temperature, and wherein the temperature is within a range of 440° C. and 570° C. 3. The aerogel of claim 1 , wherein the endothermic fire-class additive is a hydrated aluminum silicate clay. 4. The aerogel of claim 3 , wherein the hydrated aluminum silicate clay is a halloysite clay or a kaolinite clay. 5. The aerogel of claim 1 , wherein the endothermic fire-class additive is present in the reinforced silica-based aerogel material in about 5 wt. % to 70 wt. %. 6. The aerogel of claim 1 , wherein the OCMF material comprises melamine. 7. The aerogel of claim 1 , wherein the OCMF material comprises a sheet or a foam. 8. The aerogel of claim 1 , wherein the reinforced silica-based aerogel material further comprises a hydrophobic component. 9. The aerogel of claim 1 , wherein the OCMF is flammable, combustible, or both. 10. The aerogel of claim 1 , wherein the reinforced silica-based aerogel material is characterized by: i) a liquid water uptake of 20 wt % or less; and ii) a thermal conductivity of 30 mW/M*K or less according to ASTM C518 standard at a temperature of about 37.5° C., in an ambient environment, at atmospheric pressure, and at a compression load of about 2 psi. 11. A reinforced silica-based aerogel material comprising: an open-cell macroporous framework (OCMF); an aerogel disposed within the OCMF, the aerogel comprising silica; and an endothermic fire-class additive disposed within the aerogel, wherein the endothermic fire-class additive decomposes, including absorbing energy via water during dehydration of the additive, at a temperature of at least 350 degrees Celsius (C); and wherein the reinforced silica-based aerogel material has an onset of thermal decomposition of within a range of 280° C. to 390° C. 12. The reinforced silica-based aerogel material of claim 11 , wherein the endothermic fire-class additive is a hydrated aluminum silicate clay. 13. The reinforced silica-based aerogel material of claim 12 , wherein the hydrated aluminum silicate clay is a halloysite clay or a kaolinite clay. 14. The reinforced silica-based aerogel material of claim 11 , wherein the endothermic fire-class additive is present in the reinforced silica-based aerogel material in about 5 wt. % to 70 wt. %. 15. The reinforced silica-based aerogel material of claim 11 , wherein the reinforced silica-based aerogel material further comprises a hydrophobic component.