TH46374A - Process for the preparation of crystallized glass for record plates. - Google Patents

Abstract

DC60 The process for the preparation of crystallized glass, obtained by making glass with TiO2, which has been subjected to phase separation and crystallization, has been revealed. The process of separating this phase is performed by heating the glass at a temperature range from temperature. The glass transition temperature Tg (Tg - 30 ° C.) Reaches a temperature greater than the glass transition temperature Tg 60 ° C. (Tg + 60 ° C.) Also disclosed about crystal lysed glass for record plates. The information containing crystallized glass is obtained by this preparation process where the average crystal particle size is in the range equal to or less than 100 nm, or where the transparency is present. Clear at a wavelength of 600 nm is equal to 40% or more. And the plate to record the information Consist of this glass Which has a polished surface with a surface roughness Ra (JIS B0601) in the range from 0.1 to 0.5 nm. The process for the preparation of crystallized glass is obtained by processing The TiO2-containing glass, which has undergone a phase separation and crystallization process, has been revealed. The process of separating this cycle is performed by heating the glass at a temperature range from temperature. The glass transition temperature Tg (Tg - 30 ํ C) reached a temperature greater than the glass transition temperature Tg 60 C (Tg + 60 C). Crystal lysed for recording plates The information containing crystallized glass is obtained by this preparation process where the average crystal particle size is in the range equal to or less than 100 nm, or where the transparency is present. Clear at a wavelength of 600 nm is equal to 40% or more. And the plate to record the information Consist of this glass Which has a polished surface with a surface roughness Ra (JIS B0601) in the range from 0.1 to 0.5 nm.

Claims (1)

1.Process for the preparation of crystallized glass plates (crystallized) in a log shape consisting of a phase separation process of the substrate glass with TiO2 and a process of crystallized crystallized glass as a result. Where the phase separation process is combined with the heat treatment of the substrate glass at The temperature ranges from 30 C less than the glass transition temperature (Tg) of this glass to a temperature greater than the glass transition temperature (Tg) of 60 C. Crystal lysades are composed of enthalate and / or solid solutions of The substance is the main crystal. 2. The process for the preparation of claim 1, where the phase separation process will This is combined with the heat treatment of the substrate glass at a temperature range from the glass transition temperature (Tg) of this glass to a temperature greater than this glass transition temperature (Tg) 60 ํ. 3. The process for the preparation of claim 1, where this heat treatment It has been done to control the average particle size of the crystalline particles contained in the model glass. Crystal lysade in a range equal to or less than 100 nm 4. Process for preparation according to claim 1, where this lysade crystal contains TiO2 equal to or greater than 8% by mole. 5. Process for preparation according to claim 1 where crystal lysed glass is SiO2-Al2O3-MgO as the basis 6. Process for preparation according to claim 1, where tanton glass with TiO2 is glass. Containing MgO-Al2O3-SiO2 As a basis or a glass with MgO-RO-Al2O3-SiO2 (where R is the least type One of the most selective types was based on a group containing alkaline earth metals (Ba, Ca and Sr), Zn and Ni), and the total contents of MgO, Al2O3 and SiO2 were or greater than 80% by mole. 7. The process for the preparation according to claim 1, where the precursor glass is molded glass into sheet and glass shapes. The crystallized lysed in plate shape is prepared from that substrate glass and where the glass obtained in the cyclical separation process is heated to a thermal processing temperature. It is heated in the crystallization process at a heating rate of 10 ํ / min or less. 8. Process for the preparation according to claim 7, where the molded glass is subjected to heat treatment. Type it into a plate shape to be placed in a log shape. Or glass that has been molded into shape The non-shaped plate, the log plate will be processed according to the process. After the crystallization process to shape the record, thus a lysed crystal plate is obtained as Record plate sketch 9. Substrate for recording media Which consists of a crystal-lysed glass plate The log was obtained by a process for the preparation of claim 8, where the average particle size of the crystalline particle is in a range equal to or less than 100 nm 1 0. The magnetic field is composed at least with one magnetic layer, the log layer formed on the substrate in accordance with Clause 9 1 1. Substrate for the recording medium. Which consists of a crystal-lysed glass plate A log-shaped disc was obtained by a process for the preparation of claim 8, where the transparency with a wavelength of 600 nm is equal to or greater than 40%. Include, at a minimum, one magnetic layer, the log layer formed on the substrate in accordance with Clause 11 1. 3. Substrate for the recording medium. Which consists of a crystal-lysed glass plate A log-shaped plate, obtained by a process for the preparation of claim 8, where a polished surface with a surface roughness Ra (JIS B0601) is equal or less. 1 nm has been incorporated into 1 4. A magnetic record plate comprising at least one magnetic layer as a log layer formed on the substrate in accordance with claim 13 1 5.Process For the preparation of magnetic record plates, which include at least that With one magnetic layer As a record class Which formed on a crystallized lysed glass plate that has shape As a record plate This was obtained by the process for the preparation according to claim 8 1 1. By moles or more 1 7. Crystallized glass plates in disc shape prepared by the process. Combined with the phase separation process of the substrate glass with TiO2 and the process of The resulting crystals of the cyclical parted glass are formed. Where the phase separation process is combined with the thermal operation of the substrate glass at The temperature ranges from 30 C less than the glass transition temperature (Tg) of this glass to a temperature greater than the glass transition temperature (Tg) of 60 C. That crystal lysade It consists of enthalate and / or solid solution. 1 8. Crystal lysed glass according to claim 17, where this phase separation process will This is combined with the heat treatment of the substrate glass at the glass transition temperature (Tg) of this glass to a temperature greater than this glass transition temperature (Tg) of 60 ํ C 1 9. Crystal lysed glass according to claim 17, where this heat treatment receives Operation to control the average particle size of crystalline particles contained in a glass Crystal lysade in a range equal to or less than 100 nm 2 0. Crystal lysade according to claim 17, where this lysade glass contains TiO2 in an amount equal to or greater than 8% by mole. 2 1. Crystallized glass according to claim 17, where crystallized glass is SiO2-Al2O3-MgO as a basis. 2 2. Crystallized glass according to claim 17, where the glass is formed. With TiO2 as a glass with MgO-Al2O3-SiO2 As a basis or a glass with MgO-RO-Al2O3-SiO2 (where R is the least type One type was selected from a group containing alkaline earth metals (Ba, Ca and Sr) Zn and Ni) as the basis and the total contents of MgO, Al2O3 and SiO2 equal to or greater than 80% by mole. 2 3. Crystallized glass According to claim 17, where crystallized glass is in plate shape and disk shape 2 4. Substrate for recording media. Which consists of a crystal lysade sheet With the disk shape according to claim 23, where the average particle size of the crystalline particle is in range A range equal to or less than 100 nm. 2 5. A magnetic record plate comprising at least one magnetic layer as the log layer formed on the substrate according to claim 24 2 6. Substrates for recording media Which consists of a crystal-lysed glass plate The disk shape, according to claim 23, where the transparency state with a wavelength of 600 nm is equal to or greater than 40%. Which is formed on substrates according to Clause 26. 2 8. Substrate for recording media Which consists of a crystal-lysed glass plate With a disk shape according to claim 23, where a polished surface with a surface roughness of Ra (JIS B0601) equal to or less than 1 nm is included. 2 9. A magnetic record plate, composed at least with one magnetic layer, is a log layer formed on the substrate in accordance with Clause 28 3 0. The process for preparing a magnetic record plate comprises at least that With one magnetic layer As a record class Which is formed on a crystal-lysed glass plate that is shaped As a record plate according to claim No. 23 3 1. by moles or more