Honeycomb structure and manufacturing method of honeycomb structure

What is claimed is: 1 . A honeycomb structure comprising latticed partition walls defining a plurality of polygonal cells which extends from one end face to the other end face and forms through channels for fluid, wherein the partition walls are porously formed by using aggregates and a bonding material different from a material of the aggregates, and the partition walls have a relation indicating that a surface porosity of a surface region from a partition wall surface of each of the partition walls to a depth of 15% of a partition wall thickness and an inner porosity of an inner region from the partition wall surface to a depth of 15% to 50% of the partition wall thickness are different from each other, and a difference obtained by subtracting the surface porosity from the inner porosity is in excess of 1.5%. 2 . The honeycomb structure according to claim 1 , wherein the surface porosity is in a range of 10% to 50%, and the inner porosity is in a range of 20% to 75%. 3 . A honeycomb structure comprising latticed partition walls defining a plurality of polygonal cells which extends from one end face to the other end face and forms through channels for fluid, wherein the partition walls are porously formed by using aggregates and a bonding material different from a material of the aggregates, and the partition walls have a relation indicating that a surface porosity of a surface region from a partition wall surface of each of the partition walls to a depth of 15% of a partition wall thickness and an inner porosity of an inner region from the partition wall surface to a depth of 15% to 50% of the partition wall thickness are different from each other, and a difference obtained by subtracting a surface average pore diameter of the surface region from an inner average pore diameter of the inner region is in excess of 0.5 micrometer. 4 . The honeycomb structure according to claim 3 , wherein the surface average pore diameter is in a range of 5 to 40 micrometers and, the inner average pore diameter is in a range of 8 to 50 micrometers. 5 . The honeycomb structure according to claim 1 , wherein the bonding material is at least one selected from the group consisting of metal silicon and cordierite. 6 . The honeycomb structure according to claim 1 , wherein the aggregates have a melting point higher than the bonding material, are formed with uniform particle diameters, and have an average particle diameter in a range of 10 to 60 micrometers. 7 . A manufacturing method of a honeycomb structure in which the honeycomb structure according to claim 1 is manufactured, the method comprising: a forming material providing step of mixing aggregates, a bonding material different from a material of the aggregates, and a bonding aid to form a forming material; a forming step of extruding the provided forming material to form a honeycomb formed body; and a firing step of firing the provided honeycomb formed body to form a honeycomb structure, wherein in the forming material providing step, anisotropic particles are used as the bonding aid in which an average size of major axis of the particles is at least 5 micrometers or more, an aspect ratio of the average size of the major axis to an average size of the minor axis is at least 5 or more, and a melting point is lower than that of the bonding material, and the bonding aid is added to and mixed with the aggregates and the bonding material having the melting point lower than the aggregates, and in the firing step, the firing is performed at a firing temperature higher than the melting point of the bonding material.