Composition for improved manufacture of substrates

The invention claimed is: 1. A ceramic precursor batch composition, comprising: inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition; and a temperature gelling cellulose ether, wherein the batch composition comprises a soluble ion concentration of less than 0.75 molar, wherein, in a wet state, the batch composition comprises a dielectric loss tangent at 915 MHz of less than 0.6, and wherein the dielectric loss tangent (tan δ) equals the ratio of the relative dielectric loss to the relative dielectric constant (∈″/∈′). 2. The composition of claim 1 , wherein the soluble ions comprise any of water soluble alkali and alkaline earth species, ammonia, phosphates, sulfates, organic acid, halides, and combinations thereof. 3. The composition of claim 1 , wherein the temperature gelling cellulose ether is present in 1 to 10 parts by weight and the sum of the inorganic ceramic-forming ingredients is present in 100 parts by weight. 4. The composition of claim 1 , further comprising a rheology capable of being extruded into a cellular product. 5. A ceramic precursor batch composition, comprising: inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition; and a temperature gelling cellulose ether, wherein the batch composition comprises a soluble ion concentration of less than 0.75 molar, and wherein the inorganic oxide composition comprises less than 1 wt % SO 3 . 6. The composition of claim 1 , wherein the inorganic oxide composition comprises at least one of titania, titanium hydroxide, zirconia, zirconium hydroxide, zeolite, and combinations thereof. 7. A ceramic precursor batch composition, comprising: inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition; and a temperature gelling cellulose ether, wherein the batch composition comprises a soluble ion concentration of less than 0.75 molar, and wherein the batch composition comprises at least 0.1 wt % a catalytically active functional group. 8. A ceramic precursor batch composition, comprising: inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition; and a temperature gelling cellulose ether, wherein the batch composition comprises a soluble ion concentration of less than 0.75 molar, and wherein, in a wet state, a relative dielectric loss of the wet batch composition at 915 MHz is less than 25. 9. A ceramic green ware body, comprising: a plurality of channels; inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition; and a temperature gelling cellulose ether, wherein the ceramic green ware body comprises a soluble ion concentration of less than 0.75 molar, wherein, in a wet state, the ceramic green ware body comprises a dielectric loss tangent at 915 MHz of less than 0.6*CFA (closed frontal area fraction) in an axial direction, and wherein the dielectric loss tangent (tan δ) is equal to the ratio of the relative dielectric loss to the relative dielectric constant (∈″ body /∈′ body )=(∈″ bulk CFA)/((1−CFA)+∈′ bulk CFA). 10. The ceramic green ware body of claim 9 , wherein the soluble ions comprise any of water soluble alkali and alkaline earth species, ammonia, phosphates, sulfates, organic acid, halides, and combinations thereof. 11. A ceramic green ware body, comprising: a plurality of channels; inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition; and a temperature gelling cellulose ether, wherein the ceramic green ware body comprises a soluble ion concentration of less than 0.75 molar, and wherein the ceramic green ware body comprises at least 0.1 wt % a catalytically active functional group. 12. The ceramic green ware body of claim 11 , wherein the catalytically active functional group comprises at least one of V, Ru, W, Mo, zeolite, Pt, Pd, Mn; Cu, Ni, and promoted titanium. 13. A ceramic green ware body, comprising: a plurality of channels; inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition; and a temperature gelling cellulose ether, wherein the ceramic green ware body comprises a soluble ion concentration of less than 0.75 molar, and wherein the ceramic green ware body comprises a wet bulk material with a relative dielectric loss at 915 MHz of less than 25, and a wet relative dielectric loss of the ceramic green body at 915 MHz that is less than 25*CFA (25 multiplied by the fraction of closed frontal area). 14. A method of making a ceramic green ware body, comprising: mixing a temperature gelling cellulose ether and inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition with a liquid vehicle to form a precursor batch; forming the precursor batch into a structure comprising a plurality of channels to form a wet ceramic green ware body, wherein the wet ceramic green ware body comprises a soluble ion concentration of less than 0.75 molar, wherein the wet ceramic green ware body comprises a dielectric loss tangent at 915 MHz in the wet ceramic green ware body of less than 0.6*CFA (closed frontal area fraction) in the axial direction, wherein the dielectric loss tangent (tan δ) equals the ratio of the relative dielectric loss to the relative dielectric constant (∈″/∈′), wherein the wet ceramic green ware body comprises a microwave penetration depth “D 1/2P ” in the axial direction of at least 2 cm, and wherein D 1/2P is a function of the green ware CFA (closed frontal area fraction); and drying the wet ceramic green ware body to form the ceramic green ware body. 15. The method of claim 14 , further comprising: firing the ceramic green ware body to produce a porous ceramic honeycomb body. 16. A method of making a ceramic green ware body, comprising: mixing a temperature gelling cellulose ether and inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition with a liquid vehicle to form a precursor batch, mixing at least 0.1 wt % a catalytically active functional group with the temperature gelling cellulose ether, the inorganic ceramic-forming ingredients and the liquid vehicle to form the precursor batch; forming the precursor batch into a structure comprising a plurality of channels to form a wet ceramic green ware body, wherein the wet ceramic green ware body comprises a soluble ion concentration of less than 0.75 molar; and drying the wet ceramic green ware body to form the ceramic green ware body. 17. A method of making a ceramic green ware body, comprising: mixing a temperature gelling cellulose ether and inorganic ceramic-forming ingredients comprising 50-98.9 wt % an inorganic oxide composition with a liquid vehicle to form a precursor batch; forming the precursor batch into a structure comprising a plurality of channels to form a wet ceramic green ware body, wherein the wet ceramic green ware body comprises a soluble ion concentration of less than 0.75 molar, wherein the wet ceramic green ware body comprises a wet bulk material with a relative dielectric loss at 915 MHz of less than 25, and the wet ceramic green ware body has a relative dielectric loss at 915 MHz that is less than 25*CFA (25 multiplied by the fraction of closed frontal area), wherein the wet ceramic green ware body comprises a microwave penetration depth “D 1/2P ” that is greater than 20% of the diameter of the ware in the radial direction perpendicular to the channels, and wherein D 1/2P is a function of the green ware CFA (closed frontal a