Coated gypsum set stabilizing particles having a hydrophobic gypsum core, gypsum board including same, process for making the particles, and process for making the gypsum board

1 . A plurality of set stabilizer particles comprising: a particle core comprising 50 to 98 wt. % hydrophobic material selected from wax and/or siloxane, and a coating on the particle core, the coating comprising a dehydration-preventing substance selected from the group consisting of sugars, dextrins, and polyhydroxy alcohols at a ratio of about 5 to 25 parts by weight of dehydration-preventing substance per 100 parts by weight of calcium sulfate dihydrate. 2 . The set stabilizer particles of claim 1 , wherein the dehydration-preventing substance comprises a hexose sugar. 3 . The set stabilizer particles of claim 1 , wherein the dehydration-preventing substance comprises a corn sugar. 4 . The set stabilizer particles of claim 1 , wherein the dehydration-preventing substance comprises a glycerol. 5 . The set stabilizer particles of claim 1 , wherein the dehydration-preventing substance comprises a substance selected from the group consisting of sugars, dextrins and polyhydroxy alcohols. 6 . The set stabilizer particles of claim 1 , comprising sugar-coated calcium sulfate dihydrate particles. 7 . The set stabilizer particles of claim 1 , wherein the hydrophobic material comprises siloxane. 8 . The set stabilizer particles of claim 1 , wherein the hydrophobic material comprises siloxane and wherein the set stabilizer particles comprise about 0.05 wt. % to about 5 wt. % said siloxane. 9 . The set stabilizer particles of claim 1 , wherein the hydrophobic material comprises wax. 10 . The set stabilizer particles of claim 1 , wherein the hydrophobic material comprises wax and wherein the set stabilizer particles comprise about 0.5 wt. % to about 10 wt. % said wax. 11 . A method for making the set stabilizer particles of claim 1 , comprising: applying to feed particles of waste gypsum board material, comprising 50 to 98 wt. % calcium sulfate dihydrate and 0.05 to 10 wt. % hydrophobic material selected from wax and/or siloxane, a dehydration-preventing substance selected from the group consisting of sugars, dextrins, and polyhydroxy alcohols at a ratio of about 5 to 25 parts by weight of dehydration-preventing substance per 100 parts by weight of calcium sulfate dihydrate to produce set stabilizer particles. 12 . A cementitious powder comprising: stucco particles comprising calcium sulfate hemihydrate, wherein at least 60 wt. of the cementitious powder is calcium sulfate hemihydrate; and 0.5-5 wt % the set stabilizer particles of claim 1 . 13 . The cementitious powder of claim 12 , further comprising a retarder. 14 . The cementitious powder of claim 12 , being a set-stabilized calcium sulfate hemihydrate plaster comprising: the stucco particles comprising the calcium sulfate hemihydrate, a retarder, and the set stabilizer particles, wherein the particle core of the set stabilizer particles comprising the calcium sulfate dihydrate are seed crystals, and wherein the dehydration-preventing substance of the set stabilizer particles comprises the polyhydroxy alcohol that coats said calcium sulfate dihydrate of the set stabilizer particles and protects said calcium sulfate dihydrate of the set stabilizer particles against loss of water of crystallization. 15 . A plaster comprising: particles comprising calcium sulfate hemihydrate; the set stabilizer particles of claim 1 ; optionally a retarder. 16 . A method for using the set stabilizer particles of claim 1 to manufacture a gypsum board comprising: preparing an aqueous gypsum slurry comprising a mixture of water, stucco and the set stabilizer particles, wherein the stucco comprises calcium sulfate hemihydrate, wherein the aqueous gypsum slurry comprises a mixture of: at least 60 wt. % said calcium sulfate hemihydrate on a dry water free basis, 0.5-5 wt % the set stabilizer particles, 0 to 5 wt. % on a dry water free basis hydrophobic material selected from wax and/or siloxane other than hydrophobic material provided by the set stabilizer particles, and the water at a weight ratio of water to the calcium sulfate hemihydrate of 0.2:1 to 1.2:1; and depositing a front cover sheet, over a forming surface; depositing the aqueous gypsum slurry over the front cover sheet to form a layer of the aqueous gypsum slurry; depositing a back cover sheet over the aqueous gypsum slurry; setting the calcium sulfate hemihydrate to form a panel comprising a gypsum core comprising calcium sulfate dihydrate; and drying the panel and cutting the panel into a gypsum board having one or more pre-determined dimensions. 17 . The method of claim 16 , wherein a first portion of the aqueous gypsum slurry is disposed in an unfoamed state as a high-density region in layer form contacting the front cover sheet and a second portion of the aqueous gypsum slurry is disposed in a foamed state as a low-density region contacting the high-density region, the high-density region having a higher density than the low-density region; and wherein the board core comprises a set said low-density region comprising calcium sulfate dihydrate and a set said high-density region comprising calcium sulfate dihydrate, the set high-density region being interposed as a layer between the set low-density region and the front cover sheet. 18 . The method of claim 16 , wherein at least one of the front cover sheet and the back cover sheet comprises a glass mat facer sheet or a paper facer sheet, wherein the low density region has a total air volume of about 45 vol. % to about 80 vol. %, wherein the high density region has a total void volume of about 30 vol. % or less. 19 . A gypsum board made by the method of claim 16 . 20 . A gypsum board made by the setting a composition comprising a slurry comprising a mixture of: water; particles comprising calcium sulfate hemihydrate; set stabilizer particles of claim 1 ; optionally a retarder.