Shear binder agglomerates enabling high porosity in ceramic honeycomb bodies

What is claimed is: 1. A porous honeycomb body, comprising: a matrix of cells, the matrix of cells comprising a porous ceramic material comprising: a plurality of ceramic beads; and a plurality of inorganic ribbons spanning interbead gaps between adjacent ceramic beads, and connecting adjacent ceramic beads together, wherein at least 50% of the ceramic beads are connected to at least one of the ribbons. 2. The honeycomb body of claim 1 , wherein the ribbons bridge across interbead gaps to interconnect ceramic beads that are not in direct contact with each other. 3. The honeycomb body of claim 1 , wherein less than 10% of the ceramic beads are in direct contact with adjacent ceramic beads. 4. The honeycomb body of claim 1 , wherein at least 90% of the ceramic beads are connected to at least one of the ribbons. 5. The honeycomb body of claim 1 , wherein the ceramic beads comprise a median bead size in a range of 20 μm to 65 μm. 6. The honeycomb body of claim 1 , wherein the ribbons comprise a thickness in a range of 3% to 10% of a median bead size of the ceramic beads and a length in a range of 30% to 100% of the median bead size of the ceramic beads. 7. The honeycomb body of claim 1 , wherein the ribbons comprise at least one of: cordierite, a cordierite-mullite-aluminum-titanate composite, an aluminum-titanate composite, alumina, talc, or silica. 8. A porous honeycomb body, comprising: a matrix of cells, the matrix of cells comprising a porous ceramic material comprising: a plurality of ceramic beads; and a plurality of inorganic ribbons spanning interbead gaps between adjacent ceramic beads, and connecting adjacent ceramic beads together, wherein less than 50% of the ceramic beads are in direct contact with adjacent ceramic beads. 9. The honeycomb body of claim 8 , wherein less than 10% of the ceramic beads are in direct contact with adjacent ceramic beads. 10. A method for manufacturing an extruded ceramic body, the method comprising: mixing a plurality of inorganic filler particles and a polymeric binder, thereby forming a shear binder mixture; forming a plurality of green shear binder agglomerates from the shear binder mixture; mixing together a plurality of ceramic beads and the plurality of green shear binder agglomerates, thereby forming an extrusion paste; extruding the extrusion paste to form a green body, wherein during at least one of the mixing or the extruding the shear binder agglomerates are deformed under an applied shear stress to span interbead gaps between adjacent ceramic beads; drying the green body; and firing the green body to form a fired ceramic body comprising a network of the ceramic beads interconnected by ribbons formed from the inorganic filler particles of the deformed green shear binder agglomerates, wherein one or more of (i) less than 50% of the ceramic beads are in direct contact with adjacent ceramic beads and (ii) at least 50% of the ceramic beads are connected to at least one of the ribbons, and wherein the green body comprises a honeycomb geometry. 11. The method of claim 10 , wherein forming the plurality of green shear binder agglomerates comprises spraydrying the shear binder mixture.