Sag resistant, formaldehyde-free coated fibrous substrate

We claim: 1. A coated fibrous substrate comprising: a fibrous substrate that absorbs moisture and may sag with increases in humidity; and a formaldehyde-free coating applied to a major surface of the fibrous substrate, the formaldehyde-free coating comprising a binder system comprising a polycarboxy polymer, a polyol crosslinker selected from the group consisting of glycerol, dextrose, fructose, sucrose, and sorbitol, and a filler, wherein the formaldehyde-free coating has a pH of from about 6 or greater and is capable of hygroscopic expansion and wherein the formaldehyde-free coating is neutralized with a neutralizing agent consisting of a volatile base and wherein the coated fibrous substrate is a ceiling tile. 2. The coated fibrous substrate of claim 1 , wherein the pH is in the range from about 6 to about 10. 3. The coated fibrous substrate of claim 1 , wherein the binder system has a metal ion concentration of greater than zero and less than 500 ppm. 4. The coated fibrous substrate of claim 1 , wherein the filler is selected from inorganic fillers, organic fillers and combinations thereof. 5. The coated fibrous substrate off claim 4 , wherein the formaldehyde-free coating has a filler to binder ratio from 1:1 to 10:1. 6. The coated fibrous substrate of claim 4 , wherein the inorganic fillers include limestone powder, clay, sand, mica, perlite, diatomaceous earth, feldspar, talc and glass beads. 7. The coated fibrous substrate of claim 4 , wherein the organic filler include hard plastic powders. 8. The coated fibrous substrate of claim 1 , wherein the polycarboxy polymer is a homopolymer. 9. The coated fibrous substrate of claim 1 , wherein the polycarboxy polymer is polyacrylic acid, polymethacrylic acid, polystyrene maleic acid, polystyrene maleic anhydride, or combinations thereof. 10. The coated fibrous substrate of claim 1 , wherein the binder system has a carboxyl molar ratio from about 1:02 to about 1:8. 11. The coated fibrous substrate of claim 1 , wherein the volatile base is aqueous ammonia. 12. The coated fibrous substrate of claim 1 , wherein the binder system is free of any single or multi-valence metal ions selected from sodium, potassium, and calcium. 13. A coated fibrous substrate comprising: a fibrous substrate; and a formaldehyde-free coating applied to a major surface of the fibrous substrate, the formaldehyde-free coating comprising a binder system comprising: a polycarboxy polymer, a polyol crosslinker selected from the group consisting of glycerol, dextrose, fructose, sucrose, and sorbitol, and a filler, wherein the formaldehyde-free coating has a pH of from about 6 or greater and the formaldehyde-free coating is neutralized with a neutralization agent consisting of aqueous ammonia; wherein the coated fibrous substrate is a ceiling tile. 14. A coated fibrous substrate comprising: a fibrous substrate having a major surface; and a formaldehyde-free coating applied to the major surface of the fibrous substrate, the formaldehyde-free coating having a pH of about 6 or greater and is capable of hygroscopic expansion, the formaldehyde-free coating comprising a binder system comprising: a polycarboxy polymer; a polyol crosslinker; and a filler; and wherein the binder system has a metal ion concentration less than 500 ppm, and wherein the formaldehyde-free coating is neutralized with a volatile base, and wherein the coated fibrous substrate is a ceiling tile. 15. The coated fibrous substrate of claim 14 , wherein the volatile base is aqueous ammonia. 16. The coated fibrous substrate of claim 14 , wherein the binder system is free of any single or multi-valence metal ions selected from sodium, potassium, and calcium.