Ceramic honeycomb structure and its production method

What is claimed is: 1. A method for producing a ceramic honeycomb structure comprising the steps of extrusion-molding a moldable material comprising a ceramic material and hollow resin particles as a pore-forming material to a predetermined green body, and drying and sintering said green body; said moldable material comprising 3-9% by mass of said pore-forming material per 100% by mass of said ceramic material; said pore-forming material having a median particle diameter D50 of 20-53 μm, a particle diameter D5 at a cumulative volume corresponding to 5% of the total volume being 12-27 μm, a particle diameter D10 at a cumulative volume corresponding to 10% of the total volume being 15-30 μm, a particle diameter D90 at a cumulative volume corresponding to 90% of the total volume being 50-75 μm, a particle diameter D95 at a cumulative volume corresponding to 95% of the total volume being 60-90 μm, and D50/(D90-D10) being 0.85-1.30, in a curve of a cumulative volume to a particle diameter; said ceramic material comprising 15-25% by mass of silica, 40-43% by mass of talc, and 15-30% by mass of alumina, per 100% by mass of said ceramic material; said silica having a median particle diameter D50 of 15-30 μm, D10 of 10-20 μm, and D90 of 40-60 μm, the percentage of particles having diameters of 5 μm or less being 1% or less by mass, the percentage of particles having diameters of 10 μm or less being 3% or less by mass, the percentage of particles having diameters of 100 μm or more being 3% or less by mass, the percentage of particles having diameters of 200 μm or more being 1% or less by mass, and a particle diameter distribution deviation SD [=log D80-log D20] being 0.4 or less, wherein D20 represents a particle diameter at a cumulative volume corresponding to 20% of the total volume, D80 represents a particle diameter at a cumulative volume corresponding to 80% of the total volume, and D20<D80, in a curve of a cumulative volume to a particle diameter; said talc having a median particle diameter D50 of 5-15 μm, D10 of 10 μm or less, and D90 of 25 μm or more; and said alumina having a median particle diameter D50 of 3-6 μm, and D90 of 20 μm or less, the percentage of particles having diameters of 25 μm or more being 0.4% or less by mass. 2. The method for producing a ceramic honeycomb structure according to claim 1 , wherein said moldable material comprises 3.5-8% by mass of said pore-forming material per 100% by mass of said ceramic material.