摘要:
Process for the assembly of at least two articles made of silicon carbide-based materials by moderately refractory non-reactive brazing, in which the articles are placed in contact with a non-reactive brazing composition, and the assembly formed by the articles and the brazing composition is heated to a brazing temperature that is sufficient to melt the brazing composition in order to form a refractory joint, in which the non-reactive brazing composition is a binary alloy formed, as mass percentages, from 56% to 70% silicon and 44% to 30% yttrium.
摘要:
Jointing cement intended in particular for fastening together a plurality of filter blocks of a filtering body for filtering exhaust gas particles of an internal combustion engine of a motor vehicle, the cement including, in percentages by weight relative to the weight of the mineral material, apart from possible water and a possible mineral resin, between 30 and 90% of silicon carbide (SiC), at least 3% of hollow spheres including, in percentages by weight and for a total of at least 99%, between 20 and 99% of silica (SiO2) and between 1 and 80% of alumina (Al2O3), at least 80% by number of the hollow spheres having a size of between 5 and 150 μm.
摘要翻译:用于特别用于将多个过滤体过滤块固定在一起的用于过滤汽车内燃机的废气颗粒的接合水泥,所述水泥包括相对于矿物材料重量的重量百分数 来自可能的水和可能的矿物树脂,30-90%的碳化硅(SiC),至少3%的中空球包括按重量百分比计,总共至少99%的中空球的20%和99%之间的 二氧化硅(SiO 2)和1至80%的氧化铝(Al 2 O 3),至少80%的中空球的尺寸为5至150μm。
摘要:
A honeycomb structure includes: a periphery-ground article obtained by grinding an outer peripheral portion of a cell structure 3 where honeycomb segments 11 are bonded by a bonding layer 12 at an outer wall 10 of each of them, and an outer peripheral coat layer 9 disposed on an outer peripheral face 8 of the periphery-ground article; wherein at least one of the bonding layer 12 and the outer peripheral coat layer 9 is formed using honeycomb-forming slurry containing biologically soluble fibers containing a metal oxide capable of extricating a metal ion and an inorganic binder containing a colloidal oxide having modified silica sol manufactured by adding a substance containing amine or an aqueous solution of a water-soluble metalate of an amphoteric metal to silica sol. Crack generation of the outer peripheral coat layer and/or deterioration of bonding strength of the bonding layer can be inhibited.
摘要:
A honeycomb structure includes a honeycomb unit containing zeolite and an inorganic binder and having cell walls extending from one end to another end along a longitudinal direction of the honeycomb unit to define cells. An amount of zeolite contained per apparent unit volume of the honeycomb unit is approximately 230 g/L or more. A thickness X mm of the cell walls is in a range from approximately 0.15 mm to approximately 0.35 mm. A mathematical formula 40X+20≦Y≦40X+30 is satisfied when a porosity of the cell walls is defined as Y %.
摘要:
A process for manufacturing a ceramic device of the heat exchanger type includes:—shaping ceramic plates (P0-Pp) and machining these ceramic plates in the unprocessed state on at least one face, so as to produce respective flow paths (Z1A, Z1B) for a first and a second fluid,—stacking the unprocessed plates in order to form an assembly having several levels of flow,—a 1st densification heat treatment (sintering) in order to obtain a pre-assembled densified monolithic block,—a 2nd heat treatment in order to provide the seal of the assembly by migration of a meltable phase (brazing material) to the interfaces of the block.
摘要:
A honeycomb structural body includes at least one honeycomb unit which has a longitudinal direction. The at least one honeycomb unit includes plural cell walls, an inorganic binder, and inorganic particles. The plural cell walls extends along the longitudinal direction from one end face to another end face of the at least one honeycomb unit to define plural cells. The inorganic particles include ceria particles, and a ceramic material which has a degree of self-sintering lower than a degree of self-sintering of the ceria particles.
摘要:
A honeycomb structure includes at least one honeycomb unit having a longitudinal direction. The honeycomb unit includes SOx storage agent, inorganic particles, inorganic binder, and a partition wall extending along the longitudinal direction to define plural through holes. An expression Y≧−26X+40000 (0
摘要:
A ceramic member is provided including a base including an alumina sintered body, an yttria sintered body formed on the alumina sintered body, an intermediate layer including yttrium and aluminum formed between the alumina sintered body and the yttria sintered body, and a metallic member buried in the intermediate layer of the base. A difference between the thermal expansion coefficient of the alumina sintered body and that of the yttria sintered body is equal to or less than about 0.50×10−6/K, and the thermal expansion coefficient of the alumina sintered body is greater than the thermal expansion coefficient of the yttria sintered body. The alumina sintered body, the intermediate layer, the yttria sintered body, and the metallic member are formed into an integrated sintered body, and the content of yttria in the yttria sintered body is 99 wt % or more.
摘要:
A method of forming a laminated body includes a first lamination step of forming a preceding lamination sheet which is substantially treated as one green sheet by laminating and bonding at least two green sheets out of a plurality of green sheets with predetermined pattern printed thereon; a printing step of printing a predetermined pattern on the preceding lamination sheet and at least one non-preceding lamination sheet which is a not used for forming the preceding lamination sheet; and a second lamination step of laminating and bonding the preceding lamination sheet and non-preceding lamination sheet, on which the predetermined pattern is printed in the printing step, in a predetermined order.
摘要:
A method of bonding at least a first ceramics structure (101) to a second ceramics structure (102), which includes the steps of applying a pressure to the first ceramics structure (101) and the second ceramics structure (102) in such a direction that these structures move close to each other with a bonding material layer (110) interposed between the first ceramics structure (101) and the second ceramics structure (102) (FIG. A), removing a bonding material (111a) extruded from the bonding material layer (110) to an end face of a stacked body including the first ceramics structure (101) and the second ceramics structure (102) by the application of the pressure thereto (FIG. B), drying a bonding material (111b) near the end face of the stacked body (120) after the extruded bonding material (111a) is removed (FIG. C), and drying the entire part of the stacked body (120).