Shrinkage control in aluminum titanate using carbonates

What is claimed is: 1. A method for controlling shrinkage of aluminum titanate honeycombs, comprising: preparing an aluminum titanate-forming batch material comprising inorganic batch components comprising at least one alkaline earth carbonate; calculating a shrinkage during sintering of the aluminum titanate honeycombs to determine a predicted shrinkage; and selecting a particle size distribution of the at least one alkaline earth carbonate based on the predicted shrinkage to control the shrinkage during sintering of the aluminum titanate honeycombs to at least partially compensate for the predicted shrinkage, wherein the at least one alkaline earth carbonate has a first particle size distribution with a median particle size (pd 50 ) in the range of 0.2 to 2 microns and the at least one alkaline earth carbonate has a second particle size distribution with a median particle size (pd 50 ) in the range of 15 to 30 microns. 2. The method of claim 1 , wherein the inorganic batch components comprise at least one alumina source having a particle size distribution and at least one titania source having a particle size distribution, and the calculating comprises correlating the shrinkage during sintering of the aluminum titanate honeycombs to the particle size distribution of the at least one alumina source and/or the particle size distribution of the at least one titania source. 3. The method of claim 1 , wherein the aluminum titanate-forming batch material further comprises at least one pore forming source, the at least one pore forming source comprising graphite having a particle size distribution, wherein the calculating comprises correlating the shrinkage during sintering of the aluminum titanate honeycombs to the particle size distribution of the graphite. 4. The method of claim 1 , wherein, if the predicted shrinkage is above a predetermined value, the particle size distribution of the at least one alkaline earth carbonate is selected such that the median particle size of the at least one alkaline earth carbonate is higher than if the predicted shrinkage is at or below the predetermined value. 5. The method of claim 1 , wherein, if the predicted shrinkage is below a predetermined value, the particle size distribution of the at least one alkaline earth carbonate is selected such that the median particle size of the at least one alkaline earth carbonate is lower than if the predicted shrinkage is at or above the predetermined value. 6. The method of claim 1 , wherein, if the predicted shrinkage is above a predetermined value, the particle size distribution of the at least one alkaline earth carbonate is selected such that a weight ratio of particles falling within the first particle size distribution to particles falling within the second particle size distribution is less than if the predicted shrinkage is at or below the predetermined value. 7. The method of claim 1 , wherein, if the predicted shrinkage is below a predetermined value, the particle size distribution of the at least one alkaline earth carbonate is selected such that a weight ratio of particles falling within the first particle size distribution to particles falling within the second particle size distribution is greater than if the predicted shrinkage is at or above the predetermined value. 8. The method of claim 1 , wherein the at least one alkaline earth carbonate comprises a particle size distribution having a pd f of less than 0.4 and a pd breadth of less than 2. 9. The method of claim 1 , wherein the at least one alkaline earth carbonate is strontium carbonate. 10. A method for controlling shrinkage of aluminum titanate honeycombs, comprising: preparing an aluminum titanate-forming batch material comprising inorganic batch components comprising at least one alkaline earth carbonate; calculating a shrinkage during sintering of the aluminum titanate honeycombs to determine a predicted shrinkage; and selecting a particle size distribution of the at least one alkaline earth carbonate based on the predicted shrinkage to control the shrinkage during sintering of the aluminum titanate honeycombs to at least partially compensate for the predicted shrinkage, wherein the at least one alkaline earth carbonate has a first particle size distribution with a median particle size (pd 50 ) in the range of 0.2 to 2 microns and the at least one alkaline earth carbonate has a second particle size distribution with a median particle size (pd 50 ) in the range of 15 to 30 microns, wherein the controlled shrinkage is within a predetermined value range of shrinkage during sintering of the aluminum titanate honeycombs. 11. A method for controlling shrinkage of aluminum titanate honeycombs, comprising: preparing an aluminum titanate-forming batch material comprising inorganic batch components comprising strontium carbonate; calculating a shrinkage during sintering of the aluminum titanate honeycombs to determine a predicted shrinkage; and selecting a particle size distribution of the strontium carbonate based on the predicted shrinkage to control the shrinkage during sintering of the aluminum titanate honeycombs to at least partially compensate for the predicted shrinkage, wherein the strontium carbonate comprises a particle size distribution having a pd f of less than 0.4 and a pd breadth of less than 2.