摘要:
There is disclosed a honeycomb structure including a honeycomb structure section including: porous partition walls to divide and form a plurality of cells which extend from one end surface to the other end surface and become through channels of a fluid; and an outer peripheral wall positioned in an outermost periphery. The partition walls and the outer peripheral wall contain silicon carbide particles as an aggregate, and silicon as a binder to bind the silicon carbide particles, thicknesses of the partition walls are from 50 to 200 μm, a cell density is from 50 to 150 cells/cm2, an average particle diameter of silicon carbide as the aggregate is from 3 to 40 μm, and a volume resistivity at 400° C. is from 1 to 40 Ωcm.
摘要翻译:公开了一种蜂窝结构体,其包括蜂窝结构部分,该蜂窝结构部分包括:多孔分隔壁,用于分隔并形成从一个端面延伸到另一端面的多个单元,并且通过流体通道; 以及位于最外周的外周壁。 分隔壁和外周壁包含作为骨料的碳化硅颗粒和作为粘结剂的硅作为结合碳化硅颗粒的分隔壁,隔壁的厚度为50至200μm,电池密度为50至150个/ cm 2,作为骨料的碳化硅的平均粒径为3〜40μm,400℃下的体积电阻率为1〜40Ω·cm。
摘要:
The honeycomb structure is provided with a honeycomb structural section, a pair of lateral electrodes on the side face of the honeycomb structural section, and at least one intermediate layer between the honeycomb structural section and the lateral electrodes. The honeycomb structural section has silicon carbide particles having an average particle diameter of 3 to 40 μm and silicon, and the ratio (Si/SiC) of silicon (Si) to silicon carbide (SiC) is 10/90 to 40/60. The lateral electrodes have an average particle diameter of the silicon carbide particles of 10 to 70 μm and a Si/SiC ratio of 20/80 to 50/50. The intermediate layer has an average particle diameter of silicon carbide particles and Si/SiC between those of the honeycomb structural section and those of the lateral electrodes. The electric resistance between the lateral electrodes of the honeycomb structural section is 2 to 100Ω.
摘要:
A method for producing an aluminum titanate ceramic, which comprises subjecting, to forming, a raw material for aluminum titanate formation, containing Na2O-containing α-alumina particles, to obtain a formed body and then firing the body, wherein the α-alumina particles has such a crystal structure that the ratio of the average value of the average length in axis a direction and the average length in axis b direction, to the average length H in axis c direction is 3 or more.
摘要:
A method for producing an aluminum titanate ceramic, which comprises subjecting, to forming, a raw material for aluminum titanate formation, containing Na2O-containing α-alumina particles, to obtain a formed body and then firing the body, wherein the α-alumina particles has such a crystal structure that the ratio of the average value of the average length in axis a direction and the average length in axis b direction, to the average length H in axis c direction is 3 or more.
摘要:
There is provided a method for manufacturing a silicon carbide based honeycomb structure, the method using, as a part of a starting material, a recycled raw material recycled from a recovered material generated in a process for manufacturing the silicon carbide based honeycomb structure and derived from a starting material for a silicon carbide based honeycomb structure; wherein the recycled raw material is pulverized to have an average particle size of 10 to 300 μm. According to the present invention, structure defects such as voids or coarse particles, which have been problems upon manufacturing a silicon carbide based honeycomb structure, are hardly formed, and a silicon carbide based honeycomb structure having excellent strength and uniform heat conductivity can be obtained. In addition, since a once kneaded material is used as a part of a starting material, the time for kneading can be shortened.
摘要:
There is provided a method for manufacturing a silicon carbide based honeycomb structure, the method using, as a part of a starting material, a recycled raw material recycled from a recovered material generated in a process for manufacturing the silicon carbide based honeycomb structure and derived from a starting material for a silicon carbide based honeycomb structure; wherein the recycled raw material is pulverized to have an average particle size of 10 to 300 μm. According to the present invention, structure defects such as voids or coarse particles, which have been problems upon manufacturing a silicon carbide based honeycomb structure, are hardly formed, and a silicon carbide based honeycomb structure having excellent strength and uniform heat conductivity can be obtained. In addition, since a once kneaded material is used as a part of a starting material, the time for kneading can be shortened.
摘要:
A honeycomb structure includes: a honeycomb structural portion having porous partition walls functioning as fluid passages and separating and forming a plurality of cells extending from one end face to the other end face. The partition walls and the outer peripheral wall contain silicon carbide particles as a framework and silicon as a binder for binding the silicon carbide particles. The honeycomb structure has a partition walls thickness of 50 to 200 μm, a cell density of 40 to 150 cells/cm2, and an average particle diameter of the silicon carbide as a framework of 3 to 40 μm. The honeycomb structural portion has a volume resistivity of 1 to 40 Ωcm at 400° C., and the volume resistivity of the electrode portion at 400° C. is not more than 40% of the volume resistivity of the honeycomb structural portion at 400° C.
摘要翻译:蜂窝结构体包括:蜂窝结构部分,其具有用作流体通道的多孔分隔壁,并且分离和形成从一个端面延伸到另一端面的多个单元。 分隔壁和外周壁包含作为骨架的碳化硅颗粒和用作粘合碳化硅颗粒的粘合剂的硅。 蜂窝结构体的隔壁厚度为50〜200μm,电池密度为40〜150个/ cm 2,作为骨架的碳化硅的平均粒径为3〜40μm。 蜂窝结构部分在400℃下的体积电阻率为1〜40Ω·cm·cm,电极部分在400℃下的体积电阻率不大于蜂窝结构部分体积电阻率的40% 400°C
摘要:
There is disclosed a honeycomb structure 1 having a plurality of cells 4 partitioned by cell walls 2 to function as fluid passages, a predetermined cell 4 being plugged by a plugging material at one end face, a remaining cell 4 being plugged by the plugging material at the other end face, wherein a Young's modulus of the plugging material is lower than that of the cell wall 2. A strength of the plugging material is lower than that of the cell wall. A porosity of the plugging material is 97% or more of that of the cell wall. There is provided a honeycomb structure whose end face is not easily cracked and which is superior in durability.
摘要:
There is disclosed a honeycomb structure 1 having a plurality of cells 4 partitioned by cell walls 2 to function as fluid passages, a predetermined cell 4 being plugged by a plugging material at one end face, a remaining cell 4 being plugged by the plugging material at the other end face, wherein a Young's modulus of the plugging material is lower than that of the cell wall 2. A strength of the plugging material is lower than that of the cell wall. A porosity of the plugging material is 97% or more of that of the cell wall. There is provided a honeycomb structure whose end face is not easily cracked and which is superior in durability.
摘要:
There is disclosed a method of manufacturing a honeycomb structure in which defects or deformations during forming can be reduced, and yield can be improved. The method of manufacturing the honeycomb structure includes the steps of mixing and kneading a clay material including a ceramic material, a binder and water to obtain a clay; forming the resultant clay into a honeycomb shape to obtain a honeycomb formed body; and firing the resultant honeycomb formed body to obtain a honeycomb structure, a material further including a water absorption resin is used as the clay material, an inorganic binder only is used as the binder included in the clay material, an organic binder is not substantially used, and the honeycomb structure having a porosity of 40% or more is obtained.