Honeycomb ceramic substrates, honeycomb extrusion dies, and methods of making honeycomb ceramic substrates

What is claimed is: 1. A honeycomb ceramic substrate, comprising: a lattice of intersecting walls defining a honeycomb network of flow channels extending between an inlet end and an outlet end of the honeycomb substrate, wherein a first flow channel is defined by a plurality of channel walls of the intersecting walls with at least two of the plurality of channel walls including concave inner surfaces facing a center of the first flow channel, the concave inner surfaces extending from central portions of each of the concave inner surfaces to concave corner portions facing the center of the first flow channel, the concave corner portions located on either end of each concave inner surface, the concave corner portions being where each of the plurality of channel walls intersects with another one of the plurality of channel walls wherein the concave inner surfaces of the channel walls are continuously curved towards the center throughout a length of the channel walls between corresponding ones of the corner portions, a second flow channel adjacent to the first flow channel and sharing a common channel wall, wherein one side of the common channel wall comprises a concave inner surface of the concave inner surfaces and an opposing side the common channel wall includes an opposing concave inner surface facing a center of the second flow channel. 2. The honeycomb ceramic substrate of claim 1 , wherein a peripheral cross-sectional shape of at least one of the flow channels is substantially defined by the equation:  x a  n +  y b  m = 1 , wherein a and b are rectangular-fitted half-lengths along an x direction and a y direction, respectively, of the inner surfaces of channel walls defining each flow channel on either side of a y axis and an x axis, respectively, wherein x and y represent coordinates (x, y) of the inner surfaces of the channel walls defining each flow channel in the x direction and the y direction, respectively, wherein −a≦x≦a, wherein −b≦y≦b, and wherein n and m are exponents defining a degree of curvature of the channel walls. 3. The honeycomb ceramic substrate of claim 2 , wherein at least one of n and m is in a range of from about 2.5 to about 10. 4. The honeycomb ceramic substrate of claim 2 , wherein a and b are independently in a range of from about 330 microns to about 1.829 mm. 5. The honeycomb ceramic substrate of claim 2 , wherein n and m are varied across the plurality of flow channels. 6. The honeycomb ceramic substrate of claim 1 , wherein the channel walls are continuously curving around the center of the corresponding flow channel.