Patent ID: 6077796
Filing Date: 2000-06-20
Classification: C04B

Abstract:
A method of producing a cordierite body, the method comprising:a) selecting cordierite-forming raw materials in combinations selected from the group consisting ofi) a first combination, comprising talc, spinel, and kaolin, with optional additions of calcined kaolin and silica, with the mean particle diameter of the kaolin being less than about 4 micrometers, the sum of amount of calcined kaolin and non-colloidal silica being less than about 10 wt. %, and the total weight percent of P205 contributed by all raw materials being less than about 0.1%,ii) a second combination comprising talc, kaolin, and MgO-forming material, with optional additions of an Al203-forming component, spinel, and silica, the amount of non-colloidal silica being less than about 10 wt. %, the amount of Al203-forming component being less than about 10% when the mean particle diameter of the Al203-forming component is greater than about 2 micrometers, and the total weight percent of P205 contributed by all raw materials being less than about 0.1%, andiii) a third combination, comprising talc, Al203-forming component, and one or more of the components of kaolin, calcined kaolin, and silica, with optional addition of spinel, wherein the total weight percent of P205 contributed by all raw materials is less than about 0.1%, and wherein there are sets of properties of said raw materials selected from the group consisting ofa first set wherein the talc has a mean particle diameter of less than about 3 micrometers, in combination with 0% to about 49% by weight of kaolin having a mean particle diameter of less than about 3 micrometers, 0% to about 15% by weight of a first Al203-forming component having a specific surface area greater than about 5 m2/g and less than about 25 m2/g or a mean particle diameter of less than about 1 micrometer and greater than about 0.2 micrometer, and 0% to about 39% by weight of a second Al203-forming component having a specific surface area greater than about 25 m2/g or a mean particle diameter of less than about 0.2 micrometer, with the weight percent of the calcined kaolin not exceeding {6+26.times.(weight percent of the second Al203-forming component)/[(weight percent of the first Al203-forming component)+(weight percent of the second Al203-forming component)]}, and the weight percent of the non-colloidal silica not exceeding {3.75+16.25.times.(weight percent of the second Al203-forming component)/[(weight percent of the first Al203-forming component)+(weight percent of the second Al203-forming component)]}-0.625.times.(weight percent calcined kaolin),a second set, wherein the talc has a mean particle diameter of less than about 3 micrometers, the kaolin has a mean particle diameter of greater than about 3 micrometers, the Al203-forming component has a specific surface area of greater than about 25 m2/g or a mean particle diameter of less than about 0.2 micrometers, and the weight percent of calcined kaolin does not exceed about 32%, and the weight percent of non-colloidal silica does not exceed about [20-0.625.times.(wt. % calcined kaolin)], anda third set wherein the talc has a mean particle diameter greater than about 3 micrometers, the kaolin has a mean particle diameter of less than about 3 micrometers, at least one of the Al203-forming components has a specific surface area of greater than about 25 m2/g or a mean particle diameter of less than about 0.2 micrometers, and the sum of the weight percents of calcined kaolin, non-colloidal silica, and Al203-forming component having a specific surface area between about 5 and 25 m2/g or a mean particle diameter between about 1 and 0.2 micrometers does not exceed about 6 wt. %;b) intimately blending the raw materials with an effective amount of vehicle and forming aids to impart plastic formability and green strength to the raw materials and form a plastic mixture therefrom;c) forming said raw materials into a green body;d) drying the green body; ande) firing said green body at temperature of about 1370.degree. C. to 1435.degree. C.,wherein when the raw materials are of the first combination, the heating rate from about 1150.degree. C. to 1275.degree. C. is less than about 1000.degree. C./hr when the mean particle diameter of the talc is larger than about 4 micrometers and the mean particle diameter of the kaolin is greater than about 0.6 micrometers, and greater than about 200.degree. C./hr when the mean particle diameter of the talc is less than about 2 micrometers,when the raw materials are of the second combination, the heating rate from about 1150.degree. C. to 1275.degree. C. is at least about 300.degree. C./hr when the mean particle diameter of the talc is greater than about 4 micrometers, and the mean particle diameter of the MgO-forming material is less than about 2 micrometers, greater than about 625.degree. C./hr when the mean particle diameter of the talc is greater than about 4 micrometers and the mean particle diameter of the MgO-forming material is greater than about 3 micrometers, and greater than about 400.degree. C./hr when the mean particle diameter of the talc is less than about 2 micrometers,when the raw materials are of the first set of the third combination, the heating rate from 1150.degree. C. to 1275.degree. C. is at least about 500.degree. C./hr when the mean particle diameter of the kaolin is greater than about 0.5 micrometers,when the raw materials are of the second set of the third combination, the heating rate from 1150.degree. C. to 1275.degree. C. is at least about 100.degree. C./hr,to produce a body having a composition consisting essentially of in wt. % of about 49% to 53% SiO2, about 33% to 38% Al203 and about 12% to 16% MgO and having one of the following sets of properties: a mean coefficient of thermal expansion at 25-800.degree. C. of <4.times.10-7C-1 and a total porosity of <20%, a mean coefficient of thermal expansion of >4.times.10-7C-1 but <9.times.10-7C-1 and a total porosity of <12%, a mean coefficient of thermal expansion of >9.times.10-7C-1 but <15.times.10-7C-1 and a porosity of <10%.