Cordierite porous ceramic honeycomb articles with delayed microcrack evolution

What is claimed is: 1. A porous ceramic honeycomb article comprising: a primary cordierite phase; an intercrystalline glass phase; an as-fired microcrack parameter Nb 3 ≦0.06; a coated microcrack parameter Nb 3 ≦0.14 and a coated E 500° C. /E 25° C. ratio ≦1.06 after the porous ceramic honeycomb article has been washcoated and calcined at a temperature of 550° C.; and after the porous ceramic honeycomb article is exposed to a thermal treatment at a temperature ≧800° C. following washcoating and calcining, at least a first portion of the porous ceramic honeycomb article has a first treated microcrack parameter Nb 3 ≧0.18, and a first treated mean coefficient of thermal expansion of not more than 12×10 −7 /° C. over a temperature range of 25° C. to 800° C., wherein the primary cordierite phase comprises domains of cordierite crystallites having an average domain length parameter ≧40 microns, wherein the cordierite crystallites within the domains have a sub-parallel orientation with one another, and an orientation of the cordierite crystallites within the domains differs between adjacent domains. 2. The article of claim 1 , wherein the intercrystalline glass phase comprises at least about 4 wt. % of the porous ceramic honeycomb article, wherein pockets of the intercrystalline glass phase are positioned among the cordierite crystallites within the domains and between the domains, the pockets having a maximum dimension from about 0.5 microns to about 10 microns. 3. The article of claim 1 , wherein the porous ceramic honeycomb article has an as-fired MOR/CFA value ≧1600 psi and a coated MOR/CFA value ≧1600 psi and the coated MOR/CFA value is ≧60% of the as-fired MOR/CFA value. 4. The article of claim 1 , wherein the porous ceramic honeycomb article has a coated MOR*/CFA value ≧10 kpsi after the porous ceramic honeycomb article has been washcoated and calcined and before the porous ceramic honeycomb article is exposed to the thermal treatment. 5. The article of claim 4 , wherein: the intercrystalline glass phase is a magnesium aluminosilicate intercrystalline glass phase that contains at least one metal oxide selected from the list consisting of yttrium oxide, lanthanum oxide, potassium oxide, calcium oxide and combinations thereof; and coated MOR*/CFA=−1415+ S F , wherein S F =9200 La +13000 X Y +50000 X K +36200 X Ca ; X La is a weight percent of lanthanum oxide in the porous ceramic honeycomb article, X Y is a weight percent of yttrium oxide in the porous ceramic honeycomb article, X K is a weight percent of potassium oxide in the porous ceramic honeycomb article, and X Ca is the weight percent of calcium oxide in the porous ceramic honeycomb article; and S F ≧12000. 6. The article of claim 1 , wherein the first portion of the porous ceramic honeycomb article extends from a central axis of the porous ceramic honeycomb article to a radius R 1 which is at least 50% of a maximum radius R Max of the porous ceramic honeycomb article. 7. The article of claim 6 , wherein the first portion is encircled by a second portion having a second treated microcrack parameter Nb 3 , wherein the second treated microcrack parameter Nb 3 is less than the first treated microcrack parameter Nb 3 . 8. The article of claim 1 , wherein the intercrystalline glass phase has a devitrification temperature ≧800° C. 9. A porous ceramic honeycomb article comprising: a primary cordierite phase; an intercrystalline glass phase; an as-fired microcrack parameter Nb 3 ≦0.06; a coated microcrack parameter Nb 3 ≦0.14 and a coated E 500° C. /E 25° C. ratio ≦1.06 after the porous ceramic honeycomb article has been washcoated and calcined at a temperature of 550° C.; and after the porous ceramic honeycomb article is exposed to a thermal treatment at a temperature ≧800° C. following washcoating and calcining, at least a first portion of the porous ceramic honeycomb article has a first treated microcrack parameter Nb 3 ≧0.18, and a first treated mean coefficient of thermal expansion of not more than 12×10 −7 /° C. over a temperature range of 25° C. to 800° C., wherein the first portion of the porous ceramic honeycomb article extends from a central axis of the porous ceramic honeycomb article to a radius R 1 which is at least 50% of a maximum radius R Max of the porous ceramic honeycomb article, and wherein the first portion is encircled by a second portion having a second treated microcrack parameter Nb 3 , wherein the second treated microcrack parameter Nb 3 is less than the first treated microcrack parameter Nb 3 . 10. The article of claim 9 , wherein the primary cordierite phase comprises domains of cordierite crystallites having an average domain length parameter ≧40 microns, wherein the cordierite crystallites within the domains have a sub-parallel orientation with one another, and an orientation of the cordierite crystallites within the domains differs between adjacent domains. 11. The article of claim 10 , wherein the intercrystalline glass phase comprises at least about 4 wt. % of the porous ceramic honeycomb article, wherein pockets of the intercrystalline glass phase are positioned among the cordierite crystallites within the domains and between the domains, the pockets having a maximum dimension from about 0.5 microns to about 10 microns. 12. The article of claim 9 , wherein the porous ceramic honeycomb article has an as-fired MOR/CFA value ≧1600 psi and a coated MOR/CFA value ≧1600 psi and the coated MOR/CFA value is ≧60% of the as-fired MOR/CFA value. 13. The article of claim 9 , wherein the porous ceramic honeycomb article has a coated MOR*/CFA value ≧10 kpsi after the porous ceramic honeycomb article has been washcoated and calcined and before the porous ceramic honeycomb article is exposed to the thermal treatment. 14. The article of claim 13 , wherein: the intercrystalline glass phase is a magnesium aluminosilicate intercrystalline glass phase that contains at least one metal oxide selected from the list consisting of yttrium oxide, lanthanum oxide, potassium oxide, calcium oxide and combinations thereof; and coated MOR*/CFA=−1415+ S F , wherein S F =9200 La +13000 X Y +50000 X K +36200 X Ca ; X La is a weight percent of lanthanum oxide in the porous ceramic honeycomb article, X Y is a weight percent of yttrium oxide in the porous ceramic honeycomb article, X K is a weight percent of potassium oxide in the porous ceramic honeycomb article, and X Ca is the weight percent of calcium oxide in the porous ceramic honeycomb article; and S F ≧12000. 15. The article of claim 9 , wherein the intercrystalline glass phase has a devitrification temperature ≧800° C.