Porous ceramic article and method of manufacturing the same

What is claimed is: 1. A plastic ceramic precursor batch composition for making a porous ceramic article, comprising: at least one of porous and hollow pre-reacted particles; and a liquid vehicle, wherein the pre-reacted particles comprise one or more phases, and wherein the pre-reacted particles have a median particle size of equal to or greater than 10 μm. 2. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise two or more phases. 3. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise at least one of sintered, partially reacted, and fully reacted particles. 4. The plastic ceramic precursor batch composition of claim 3 , wherein the sintered pre-reacted particles comprise fine particles sintered together to form the pre-reacted particles, the partially reacted particles comprise fine particles sintered together and a portion of the sintered fine particles reacted to form another phase different from the fine particles adjacent the sintered connection, and the fully-reacted particles comprise a multiphase microstructure. 5. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise spheroidal particles comprising at least one of a sphere, torus (doughnut), prolate spheroid (egg, raindrop, American football), and oblate spheroid (pancake, lentil) particles. 6. The plastic ceramic precursor batch composition of claim 1 , further comprising at least one of an inorganic powder, an organic powder, and an inorganic binder. 7. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise porous pre-reacted particles. 8. The plastic ceramic precursor batch composition of claim 7 , wherein the porous pre-reacted particles comprise a porosity in a range of 10% to 50%. 9. The plastic ceramic precursor batch composition of claim 7 , wherein the porous pre-reacted particles comprise a median pore size in a range of 200 nm to 10 μm. 10. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise mechanical strength to survive intact shear stresses from mixing and extrusion. 11. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise at least one of alumina, silica, titania, cordierite, magnesia, strontium oxide, calcium oxide, lanthanum oxide, boron oxide, cerium oxide, yttrium oxide, or other rare earth oxide, zirconium oxide, an alkali oxide, aluminum titanate solid solution pseudobrookite, mullite, spinel, feldspar, and glass. 12. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise at least two of alumina, silica, titania, cordierite, magnesia, strontium oxide, calcium oxide, lanthanum oxide, boron oxide, cerium oxide, yttrium oxide, or other rare earth oxide, zirconium oxide, an alkali oxide, aluminum titanate solid solution pseudobrookite, mullite, spinel, feldspar, and glass. 13. A crystalline cordierite article made by shaping and firing the plastic ceramic precursor batch composition of claim 11 . 14. A crystalline aluminum titanate solid solution pseudobrookite article made by shaping and firing the plastic ceramic precursor batch composition of claim 11 . 15. The plastic ceramic precursor batch composition of claim 11 , further comprising at least one additional source of alumina, silica, magnesia, titania, strontium oxide, calcium oxide, lanthanum oxide, boron oxide, cerium oxide, yttrium oxide, or other rare earth oxide, zirconium oxide, and one or more alkali oxides. 16. The plastic ceramic precursor batch composition of claim 1 , wherein the pre-reacted particles comprise hollow pre-reacted particles. 17. A plastic ceramic precursor batch composition for making a porous ceramic article, comprising: at least one of porous and hollow pre-reacted particles; a pore former; and a liquid vehicle, wherein the pre-reacted particles comprise one or more phases. 18. A plastic ceramic precursor batch composition for making a porous ceramic article, comprising: at least one of porous and hollow pre-reacted particles; and a liquid vehicle, wherein the pre-reacted particles comprise one or more phases, wherein the pre-reacted particles comprise at least one of sintered, partially reacted, and fully reacted particles, and wherein the sintered pre-reacted particles comprise fine particles sintered together to form the pre-reacted particles, the partially reacted particles comprise fine particles sintered together and a portion of the sintered fine particles reacted to form another phase different from the fine particles adjacent the sintered connection, and the fully-reacted particles comprise a multiphase microstructure. 19. A plastic ceramic precursor batch composition for making a porous ceramic article, comprising: at least one of porous and hollow pre-reacted particles; at least one of an inorganic powder, an organic powder, and an inorganic binder and a liquid vehicle, wherein the pre-reacted particles comprise one or more phases. 20. A plastic ceramic precursor batch composition for making a porous ceramic article, comprising: at least one of porous and hollow pre-reacted particles; and a liquid vehicle, wherein the pre-reacted particles comprise one or more phases, and wherein the pre-reacted particles comprise at least one of alumina, silica, titania, cordierite, magnesia, strontium oxide, calcium oxide, lanthanum oxide, boron oxide, cerium oxide, yttrium oxide, or other rare earth oxide, zirconium oxide, an alkali oxide, aluminum titanate solid solution pseudobrookite, mullite, spinel, feldspar, and glass. 21. A plastic ceramic precursor batch composition for making a porous ceramic article, comprising: at least one of porous and hollow pre-reacted particles; and a liquid vehicle, wherein the pre-reacted particles comprise one or more phases, and wherein the pre-reacted particles comprise mechanical strength to survive intact shear stresses from mixing and extrusion. 22. A plastic ceramic precursor batch composition for making a porous ceramic article, comprising: at least one of porous and hollow pre-reacted particles; and a liquid vehicle, wherein the pre-reacted particles comprise one or more phases, and wherein the pre-reacted particles comprise spheroidal particles comprising at least one of a sphere, torus (doughnut), prolate spheroid (egg, raindrop, American football), and oblate spheroid (pancake, lentil) particles.