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A ceramic porous sintered body including a plurality of ceramic coarse particles and a polycrystalline sintered body forming a bonding layer. The bonding layer exists between the ceramic coarse particles and connects the ceramic coarse particles. The polycrystalline sintered body includes a pluralit

A ceramic porous sintered body including a plurality of ceramic coarse particles and a polycrystalline sintered body forming a bonding layer. The bonding layer exists between the ceramic coarse particles and connects the ceramic coarse particles. The polycrystalline sintered body includes a plurality of ceramic fine particles having an average particle size smaller than the ceramic coarse particles. The ceramic porous sintered body has an average pore diameter of 5 μm to 50 μm. A ratio of an average particle size of the ceramic coarse particle to the ceramic fine particles is 15:1-200:1.

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1. A ceramic porous sintered body, comprising: a plurality of ceramic coarse particles comprising α silicon carbide; anda plurality of polycrystalline bodies each forming a bonding layer and connecting the ceramic coarse particles such that the ceramic porous sintered body has an average pore diamet

1. A ceramic porous sintered body, comprising: a plurality of ceramic coarse particles comprising α silicon carbide; anda plurality of polycrystalline bodies each forming a bonding layer and connecting the ceramic coarse particles such that the ceramic porous sintered body has an average pore diameter of 5 μm to 50 μm,wherein each of the polycrystalline bodies includes a plurality of ceramic fine particles comprising α silicon carbide and binding such that the ceramic fine particles form the bonding layer comprising an aggregate of the ceramic fine particles which are not fused to one another, and the ceramic fine particles have an average particle size smaller than an average particle size of the ceramic coarse particles such that a ratio of the average particle size of the ceramic coarse particles to the average particle size of the ceramic fine particles is 15:1-200:1. 2. The ceramic porous sintered body according to claim 1, wherein the ceramic coarse particles comprise single-crystal particles. 3. The ceramic porous sintered body according to claim 1, wherein the bonding layer is a brittle body having a strength lower than a strength of the ceramic coarse particles. 4. The ceramic porous sintered body according to claim 1, wherein the bonding layer and the ceramic coarse particles include sintering aids, respectively, and a content of the sintering aid in the bonding layer is higher than a content of the sintering aid in the ceramic coarse particles. 5. The ceramic porous sintered body according to claim 1, wherein a ratio of a total weight of the ceramic coarse particles to a total weight of the ceramic fine particles is 1:1-9:1. 6. The ceramic porous sintered body according to claim 1, wherein the average particle size of the ceramic coarse particle is 30 μm to 70 μm. 7. The ceramic porous sintered body according to claim 1, wherein the average particle size of the ceramic fine particle is 0.1 μm to 20 μm. 8. The ceramic porous sintered body according to claim 1, further comprising: a sealing layer on an outer periphery of the porous sintered body. 9. The ceramic porous sintered body according to claim 1, wherein said bonding layer includes at least one sintering aid selected from the group consisting of iron, nickel, titanium, chromium, and a metal oxide thereof. 10. A ceramic filter, comprising: a pillar-shaped porous ceramic member having a plurality of cells extending in a longitudinal direction of the pillar-shaped porous ceramic member, the pillar-shaped porous ceramic member comprising a ceramic porous sintered body including a plurality of ceramic coarse particles and a plurality of polycrystalline sintered bodies connecting the ceramic coarse particles such that the ceramic porous sintered body has an average pore diameter of 5 μm to 50 μm, the ceramic coarse particles comprising α silicon carbide, each of the polycrystalline sintered bodies forming a bonding layer connecting the ceramic coarse particles,wherein each of the polycrystalline bodies includes a plurality of ceramic fine particles comprising α silicon carbide and binding such that the ceramic fine particles form the bonding layer comprising an aggregate of the ceramic fine particles which are not fused to one another, and the ceramic fine particles have an average particle size smaller than an average particle size of the ceramic coarse particles such that a ratio of the average particle size of the ceramic coarse particle to the average particle size of the ceramic fine particles is 15:1-200:1. 11. The ceramic filter according to claim 10, wherein the ceramic coarse particles comprise single-crystal particles. 12. The ceramic filter according to claim 10, wherein the bonding layer is brittle body having a strength lower than a strength of the ceramic coarse particles. 13. The ceramic filter according to claim 10, wherein the bonding layer and the ceramic coarse particles include sintering aids, respectively, and a content of the sintering aid in the bonding layer is higher than a content of the sintering aid in the ceramic coarse particles. 14. The ceramic filter according to claim 10, wherein a ratio of a total weight of the ceramic coarse particles to a total weight of the ceramic fine particles is 1:1-9:1. 15. The ceramic filter according to claim 10, wherein the average particle size of the ceramic coarse particle is 30 μm to 70 μm. 16. The ceramic filter according to claim 10, wherein the average particle size of the ceramic fine particle is 0.1 μm to 20 μm. 17. The ceramic filter according to claim 10, further comprising: a sealing layer on an outer periphery of the porous sintered body. 18. The ceramic filter according to claim 10, wherein said bonding layer includes at least one sintering aid selected from the group consisting of iron, nickel, titanium, chromium, and a metal oxide thereof. 19. A ceramic porous sintered body, comprising: a plurality of ceramic coarse particles comprising α silicon carbide; anda plurality of polycrystalline sintered bodies each forming a bonding layer and connecting the ceramic coarse particles such that the ceramic porous sintered body has an average pore diameter of 5 μm to 50 μm,wherein each of the polycrystalline sintered bodies includes a plurality of ceramic fine particles comprising α silicon carbide and binding such that the ceramic fine particles form the bonding layer comprising an aggregate of the ceramic fine particles which are not fused to one another, and the ceramic fine particles have an average particle size smaller than an average particle size of the ceramic coarse particles. 20. The ceramic porous sintered body according to claim 19, wherein said bonding layer includes at least one sintering aid selected from the group consisting of iron, nickel, titanium, chromium, and a metal oxide thereof.