TH101606A - Aluminum oxide powder produced by flame hydrolysis with large surface area. - Google Patents

Abstract

DC60 (21/05/58) Aluminum oxide powder produced by flame hydrolysis and consisting of aggregates of primary particles, with BET surface area ranging from 100 to 250 square meters/g, the absorption of dibutyl phthalate is from 50 to 450 g/100 g of aluminum oxide powder, the powder shows only the crystallized primary particles in the TEM image, high-synthetic separation characteristics. The powder is prepared by vaporizing aluminum chloride and transporting the vapor by means of a carrier gas to a mixing chamber, and then introducing hydrogen, air (primary air) which may be filled with oxygen and/or may be preheated to the mixing chamber. The mixture of aluminum chloride vapor, hydrogen, air is then ignited in a burner and burned by a flame into the chamber, the reaction of which separates the surrounding air. The solid material is then separated from the gaseous material. And then the solid material is treated with steam and optionally with air. The release rate of the reaction mixture from the mixing chamber into the reaction chamber is at least 10 m/s and the lambda value is from 1 to 10 and the gamma value is from 1 to 15. Such powder can be used as ink absorbent in inkjet media devices. Edited on 21/05/2015 Aluminium oxide powder is produced by flame hydrolysis and consists of a total of primary particles, with a BEF surface area ranging from 100 to 250 square meters/g, the absorption of dibutyl phthalate is from 50 to 450 g/100 g of aluminium oxide powder, the powder shows only the crystallized primary particles in the TEM images. High segregation characteristics The powder is also prepared by vaporizing aluminium chloride and then transporting the vapor using a carrier gas to the mixing chamber and then feeding hydrogen, air (primary air) which may be chosen to be dense. with oxygen and/or optionally preheated into a mixing chamber. The mixture of aluminium chloride vapor, hydrogen, air is then ignited in a burner and combusted into the chamber by a flame. The reaction is separated from the surrounding air. The solid material is then separated from the gaseous material and the solid material is subsequently treated with steam and optionally with air. The release rate of the reaction mixture from the mixing chamber into the reaction chamber should be at least 10 m/s, with a lambda value of 1 to 10 and a gamma value of 1 to 15. The powder can be used as an ink absorber in inkjet media devices. --------------------------------------------------------- Aluminium oxide powder produced by scintillator water synthesis and comprising primary particle aggregates. With BET surface areas ranging from 100 to 250 m2/g, the absorption of dibutyl phthalate ranges from 50 to 450 g/100 g of aluminium oxide powder, which shows only primary crystallized particles in the TEM images. High separation characteristics The powder is prepared by atomizing aluminium chloride and transporting the atom by means of a carrier gas into a mixing chamber, and then introducing hydrogen, air (primarily air), separated from the air, which in some cases is enriched with oxygen, and/or may be pre-indicated in some cases, into the mixing chamber. The mixture of aluminium chloride vapor, hydrogen and air is then ignited in a burner and the flame is introduced into the reaction chamber, which is separated from the surrounding air. The bulk solids are then separated from the gaseous solids, and the bulk solids are subsequently treated with steam and, in some cases, with air. The loading rate of the reaction mixture from the mixing chamber is In a reaction chamber with a minimum reaction velocity of 10 m/s and a lambda value of 1 to 10 and a gamma value of 1 to 15, the powder can be used as an ink absorber in the media of ink-jet systems.

Claims (1)

: DC60 (21/05/58) Aluminum oxide powder produced by flame hydrolysis and composed of aggregates. Of the primary particle With a BET surface area ranging from 100 to 250 square meters / g, the bioavailability of dibutyl phthalate is from 50 to 450 g / 100 g of aluminum oxide powder. Only the primary particles that were crystallized in the TEM image were highly synthetic separation characteristics. The powder was prepared by making aluminum. Chloride to vapor And then transport the vapor by means of gas Carrier to mixed chamber And thus feed hydrogen, air (primary air), which may choose to be full With oxygen and / or may choose to be pre-heated to the mixing chamber, then a mixture of aluminum chloride vapors, hydrogen, air to ignite in the berner and open flames. Then Burn into the chamber Reactions which have separated from the surrounding air Then the solid material can Separated from the gaseous substance The solid material was subsequently treated with steam and may be selected for air treatment. The rate of release of the reaction mixture from the mixed chamber into the reaction chamber was At a minimum of 10 m / s and a lambda value that is from 1 to 10 and a gamma value of 1 to 15, the powder can be used as a ink absorbent in the intermediate equipment of the inkjet system. / 05/2015 Aluminum oxide powder produced by flame hydrolysis and composed of aggregates. Of the primary particle With a BEF surface area ranging from 100 to 250 sq m / g, the bioavailability of dibutyl phthalate is from 50 to 450 g / 100 g of aluminum oxide powder. Only the primary particles that were crystallized in the TEM image were highly synthetic separation characteristics. The powder was prepared by making aluminum. Chloride to vapor And then transport the vapor by means of gas Carrier to mixed chamber And thus feed hydrogen, air (primary air), which may choose to be full With oxygen and / or may choose to be pre-heated to the mixing chamber, then a mixture of aluminum chloride vapors, hydrogen, air to ignite in the berner and open flames. Then Burn into the chamber Reactions which have separated from the surrounding air Then the solid material can Separated from the gaseous substance The solid material was subsequently treated with steam and may be selected for air treatment. The rate of release of the reaction mixture from the mixed chamber into the reaction chamber was At a minimum of 10 m / s and a lambda value that is from 1 to 10 and a gamma value of 1 to 15, the powder can be used as a ink absorbent in inkjet media media devices. -------------------------------------------------- ------- Aluminum oxide powder produced by water photosynthesis to emit flashes and assemble. With a combination of primary particles With a BET surface area ranging from 100 to 250 sq m / g, the bioavailability of dibutyl phthallate is from 50 to 450 g / 100 g of aluminum oxide powder. Only the primary particles were crystallized in the TEM image. High synthetic separation characteristics. The powder was prepared by making aluminum. Chloride to an aerosol vapor And then transports the vapor Aerosol by means of a carrier gas into the chamber of the mixture It then enters hydrogen, air (primarily air), which has been separated from air, which in some cases is full of oxygen and / or possibly pre-eminence, in some cases, into the mixing chamber. Then do stuff Mix of vapor, aluminum chloride, hydrogen and air to burn up in a Burner furnace and The flames then burned into the reactive chamber, which had separated from the surrounding air. Then the dense matter is separated from the gaseous substance. And later treated the dense mass with steam and In some cases also with air The filling rate of the reaction mixture from the chamber to which the mixture was used. In the chamber, the reaction is at least 10 m / s and a lambda value that is from 1 to 10 and a gamma value of 1 to 15. System intermediary ink-jet privilege (Item one) which will appear on the advertisement page: edit 21/5/58 1. Aluminum oxide powder produced by flame hydrolysis with a BET surface area in the range from 135 to 190 m2 / g, the absorption of dibutyl. Phthalates in the range from 150 to 350 g / 100 g of aluminum oxide powder, OH densities in the range from 8 to 12 OH / sq nm; Where the high resolution TEM images show only the crystalline primary particles; And where the X-ray diffractogram Of aluminum powder Oxides show the intensity, which is expressed as a tag: