High temperature sag resistant lightweight gypsum board

1 . A gypsum board comprising: a gypsum core layer comprising at least 60 wt. % calcium sulfate dihydrate calcium sulfate dihydrate, and 0.03-1 wt. % urea distributed uniformly throughout the gypsum core, wherein the gypsum core layer has a density of about 40 pounds per cubic foot or less, and wherein the gypsum board has a mass of pounds per area less than 2100 lbs/msf, wherein the mass of pounds per area lbs/msf values are for a ⅝ inch thick board and subject to proportional adjustment for thicker or thinner boards. 2 . The gypsum board of claim 1 , wherein the gypsum core layer further comprises high expansion particles having a volume expansion of about 200% or more of their original volume after being heated for about one hour at about 1500° F. 3 . The gypsum board of claim 2 , wherein the gypsum core layer further comprises 0-0.1% sodium trimetaphosphate. 4 . The gypsum board of claim 1 , further comprising less than 120 parts by weight chloride per 1,000,000 parts by weight of said calcium sulfate dihydrate. 5 . The gypsum board of any of claim 1 , further comprising about 120 parts by weight to about 3000 parts by weight chloride per 1,000,000 parts by weight of said calcium sulfate dihydrate. 6 . The gypsum board of claim 1 , wherein the gypsum core layer has opposed front and back outer surfaces, further comprising a front cover sheet on the gypsum core front surface and a back cover sheet on the gypsum core back surface. 7 . The gypsum board of claim 1 , wherein the front and/or back cover sheets are made of paper or fiberglass. 8 . The gypsum board of claim 1 , wherein the gypsum core layer further comprises about 0.1-3.0% by weight of fiber-reinforced such as mineral wool, glass fiber or carbon fiber. 9 . The gypsum board of claim 1 , further comprising a skim layer comprising at least 60 wt. % calcium sulfate dihydrate on at least one side of the gypsum core layer, said skim layer having a density at least 1.1 times higher than the density of the core layer. 10 . The gypsum board of claim 9 , wherein the skim layer further comprises 0.03-1 wt. % urea. 11 . The gypsum board of claim 1 , wherein the board has a thickness of ⅜″. 12 . The gypsum board of claim 1 , further comprising a skim layer comprising at least 60 wt. % calcium sulfate dihydrate, and 0.03-1 wt. %. 13 . The gypsum board of claim 1 , wherein the gypsum core layer is effective to provide a Thermal Insulation Index (TI) of about 20 minutes or greater. 14 . The gypsum board of claim 1 , wherein the gypsum core layer is effective to provide a High Temperature Shrinkage (S) of about 10% or less. 15 . A gypsum board having a gypsum core layer made from a mixture of: at least 60 wt. % on a dry basis calcium sulfate hemihydrate, 0.03-1 wt. % on a dry basis urea, an accelerator, pregelatinized, partially hydrolyzed starch, glass fiber or mineral wool, vermiculite, retarder, dispersant, optionally sodium trimetaphosphate, optionally clay, optionally sodium chloride, optionally magnesium chloride, and water. 16 . A method of making a gypsum board of claim 1 , comprising: preparing an aqueous gypsum slurry comprising a mixture of water and stucco, wherein the stucco comprises calcium sulfate hemihydrate, and wherein the aqueous gypsum slurry comprises a mixture of: at least 60 weight percent of said calcium sulfate hemihydrate on a dry basis, 0.03-1 wt. % urea on a dry basis, and the water at a weight ratio of water to the calcium sulfate hemihydrate of 0.2:1 to 1.2:1; disposing the aqueous gypsum slurry onto a surface and allowing the aqueous gypsum slurry to set to form a set gypsum core layer comprising calcium sulfate dihydrate; cutting the set gypsum core layer into a panel of predetermined dimensions; and drying the panel, wherein the set gypsum core layer has a density of about 40 pounds per cubic foot or less, wherein the gypsum board has a mass of pounds per area less than 2100 lbs/msf, wherein the mass of pounds per area lbs/msf values are for a ⅝ inch thick board and subject to proportional adjustment for thicker or thinner boards. 17 . The method of claim 16 , wherein the aqueous slurry is disposed between a front cover sheet and a back cover sheet, each cover sheet having an inner surface and an outer surface; wherein the aqueous slurry contacts the inner surface of the front cover sheet and the back cover sheet, and at least a portion of the aqueous slurry is in a foamed state while being disposed between the front cover sheet and the back cover sheet. 18 . The method of claim 16 , wherein the front and back cover sheets comprise woven fibers. 19 . The method of claim 16 , wherein the front and back cover sheets comprise non-woven fibers. 20 . The method of claim 16 , wherein the front and back cover sheets comprise paper.