摘要:
A furnace for sintering non-oxide ceramics, particularly Si.sub.3 N.sub.4, which includes a space for accommodating a ceramic shaped body, carbon heaters arranged around the ceramic shaped body in said space and heat insulating layers of carbon fiber mat that cover the inner walls of the furnace. The furnace also includes sheets composed of laminated graphite leaves having an ash content of not more than 0.3% by weight extendedly provided between the heat insulating layers and the ceramic shaped body. As the carbon heaters, those composed of a high purity graphite having a carbon content of at least 99.9980%, a silicon content of not more than 5 ppm and an iron content of not more than 9 ppm, by weight, are preferably used. A process is also disclosed which utilizes the above apparatuses to protect the shaped body from an influence of carbon fiber dusts liberating from the insulating layers during sintering.
摘要:
The aggregation and phase separation of inorganic particles are performed in a sol containing the inorganic particles and a solvent to produce a porous body having open pores. Preferably, the inorganic particles are particles of one or more inorganic material selected from the group consisting of titania, silica, alumina, zinc oxide and zirconia. Further, the sol may have strong acidity and the pH of the sol is elevated to perform the aggregation and phase separation of the inorganic particles. Alternatively, the sol may have strong basicity and the pH of the sol is lowered to perform the aggregation and phase separation of the inorganic particles. The present invention provides a novel method of producing a porous body and sintered body having co-continuous structure, applicable to a wide variety of inorganic materials.
摘要:
An object of the present invention is to provide a support for solid phase extraction for preventing the fracture of the porous body of the support and the space between the porous body and its container, and for processing various amounts of liquids to be processed while maintaining the ease of passage of liquid in use. A support 1 for solid phase extraction comprises a ceramic substrate 1 with a hole or holes 3 formed therein and an inorganic porous material 4 filled in the hole 3 produced by sol-gel transition accompanied by phase transition.
摘要:
An object of the present invention is to provide a column for chromatograph having a structure for enabling the separation of a sample and for maintaining a high resolution of separation. The present invention provides a column 3 for chromatograph having a honeycomb substrate 1 having a hole 1a for flowing a sample and a separation phase 2 filled in the holes 1a. Preferably, the separation phase 2 comprises a porous bone structure composed of an inorganic material and with open pores formed therein, and the porous bone structure is generated by sol-gel transition accompanied by phase transition.
摘要:
In a method of effecting a glass-capsule HIP for producing a ceramic fired body having a porsity of less than 0.1%, a residual sintered carbon amount and/or an absorbed water amount in a ceramic formed body before inserting into the glass-capsule are set to predetermined values. Therefore, it is possible to obtain a ceramic sintered body having a high density and a high flexural strength.
摘要:
A kiln tool plate for firing a ceramic material used during the firing of an article to be fired, where at least uneven conformations are imparted to a front surface side on which the article to be fired is mounted and a back surface side, and opening areas are formed. In the ceramic material firing kiln tool plate, the decrease of heat capacity and the reduction of costs can be achieved, a contact area with the article to be fired is decreased to improve outgassing, and the atmosphere can be made uniform to uniformly manufacture the fired article. Above all, the kiln tool plate for firing the ceramic material has excellent thermal shock resistance, creep resistance, high strength at high temperature and oxidation resistance, and enables weight saving.
摘要:
A support for solid phase extraction is provided for preventing the fracture of the porous body of the support and the space between the porous body and its container, and for processing various amounts of liquids to be processed while maintaining the ease of passage of liquid in use. The support for solid phase extraction comprises a ceramic substrate with one or more holes formed therein, and an inorganic porous material, filled in the hole or holes, which is produced by sol-gel transition accompanied by phase transition.
摘要:
A kiln tool uses a fiber-composite material comprising a yarn aggregate in which yarn including at least a bundle of carbon fibers and a carbon component other than carbon fibers is three-dimensionally combined and integrally formed so as not to separate from each other; and a matrix made of Si--SiC-based fiber filled between the yarn adjacent to each other within the yarn aggregate. The kiln tool has good workability and working accuracy, and excellent durability.
摘要:
The present invention provides: a pressure plate used in a press for production of a liquid crystal panel, the plate being composed of an Si--SiC sintered material containing SiC and Si, and a process for producing a liquid crystal panel. The process includes sealing a liquid crystal in between a plurality of substrates and subjecting the resulting material to pressurization and heating by the use of a pair of the above pressure plates to bond the plurality of substrates. The process using the pressure plates can provide a liquid crystal panel which produces substantially no strain when heated, which has good gap accuracy between substrates, and which has a small surface roughness and high dimensional accuracy. Moreover, the process can produce a liquid crystal panel economically and in a smaller number of steps.
摘要:
A heating storage structure 1 includes a plurality of mounting parts 5 each including a mounting face 9 on which articles 31 to be heated are mounted, which is a part of the surface of the mounting part; and a fixing part 7 to which the plurality of mounting parts 5 are detachably fixed so that the plurality of mounting parts 5 are stacked while each of spaces S1 to S4 is left between the mounting face 9 of one of the mounting parts 5 and the mounting part 5 disposed adjacent to the one mounting part 5, and the plurality of mounting parts 5 include a mounting part 5b provided with the mounting face 9 having a thermal emissivity which is different from that of the mounting face 9 of another mounting part 5a.