摘要:
There is provided a bonding material composition for obtaining a joined body by unitarily joining two or more members to be joined by means of a bonding material layer, wherein the bonding material composition contains flat particles, non-flat particles, smectite-based clay, and an inorganic adhesive as main components. The bonding material composition costs little, can relax thermal stress generated in the joined body without using fibers which may do harm to a human body, and can reduce defects such as a crack and a void upon drying or a thermal treatment.
摘要:
A silicon carbide based porous material, which contains a metal silicide in an amount of 1 to 30% by mass and having a porosity of 38 to 80%, is provided.
摘要:
There is provided a bonding material composition capable of suppressing crack generation on an end face of a resultant honeycomb structure to a large extent by reducing anisotropy of Young's modulus after curing of the bonding material by the use of an isotropic filler without using inorganic fibers. The bonded body has two or more members unitarily bonded by means of a bonding material layer, and the relational expression of 0.5
摘要:
A honeycomb structure which effectively prevents generation of defects such as cracks by thermal stress during use and regeneration and has excellent durability is provided. In a honeycomb structure 1 in which honeycomb segments 2 having part of the whole shape of the honeycomb structure are bonded integrally by means of a bonding material 9, the honeycomb structure includes inner partition walls 6 having a number of first pores and arranged so as to form a plurality of cells 5 serving as flow channels for exhaust gas between two end faces through processing of the outer circumference of the bonded body into a predetermined shape, outer circumferential wall 8 having a number of second pores and arranged so as to surround the inner partition walls 6, and internal partition wall internal partition walls of the segments contacting to the outer circumferential wall) 11 having a number of third pores and contacting with a processed outer circumferential surface becoming an outermost circumference through processing of an outer circumferential portion. A filling composition containing particles of a particle size capable of coming into the second pores and a binder capable of binding particles and the insides of the second pores of the outer circumferential wall 8 and/or binding particles is disposed inside the second pores of the outer circumferential wall 8, and/or a filling composition containing particles of a particle size capable of coming into the third pores and a binder capable of binding particles and the insides of the third pores of the internal partition walls of the segments contacting to the outer circumferential wall 11 and/or binding particles is disposed inside the third pores of the outer circumferential wall 4.
摘要:
A porous fired body including a structure that aggregates are bonded by a bonding material, wherein the aggregates include oxide particles having a larger thermal capacity per unit volume than an SiC particle and SiC, the bonding material includes metallic Si, volume ratio of the metallic Si in the whole porous fired body is between 8 and 43% by volume, volume ratio of the particles of the oxide in the whole aggregates is between 14 and 55% by volume, the SiC particles and the oxide particles respectively include one or more particle groups, and an average particle size of each particle group is within a range of between 5 and 100 μm.
摘要:
A silicon carbide-based porous article comprising silicon carbide particles as an aggregate, metallic silicon and an aggregate derived from siliceous inorganic particles to form pores through volume shrinkage by heat treatment, wherein the porosity is 45 to 70%, and the average pore diameter is 10 to 20 μm is provided. Also provided is a method for producing a silicon carbide-based porous article, comprising; adding inorganic particles to form pores through volume shrinkage by heat treatment to a raw-material mixture containing silicon carbide particles and metallic silicon, then forming into an intended shape, calcinating and firing the resultant green body, forming pores through volume shrinkage of the inorganic particles by heat treatment, and the shrunk inorganic particles being present as an aggregate in the porous article.
摘要:
According to the present invention, a porous material comprising a connected structure formed by combining silicon carbide which is in the form of aggregate particles with cordierite which is a combining material in a state to hold a large number of pores, and having a porosity of 52 to 70% and a median pore diameter of 15 to 30 μm, and is a porous material having a high porosity and a high strength and having a remarkably low possibility of including defective portions such as cuts and the like causing liquid leakage in a case where the material is used as a filter.