GLASS SUBSTRATE FOR MAGNETIC DISK AND MAGNETIC DISK
PROBLEM TO BE SOLVED: To provide a glass substrate for magnetic disks with which it is possible to improve the yield of magnetic disks.SOLUTION: There is provided to solve the above problem a glass substrate for magnetic disks of disc shape having a circular hole at center, wherein an arithmetic ave...
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| Format | Patent |
| Language | English Japanese |
| Published |
15.06.2017
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| Abstract | PROBLEM TO BE SOLVED: To provide a glass substrate for magnetic disks with which it is possible to improve the yield of magnetic disks.SOLUTION: There is provided to solve the above problem a glass substrate for magnetic disks of disc shape having a circular hole at center, wherein an arithmetic average roughness measured by an atomic force microscope on the inner circumferential face on the middle side of the glass substrate for magnetic disks is 0.7 nm or less, and when an angular direction arithmetic average roughness Ra_deg in each angular direction is calculated while changing the angular direction from 0° to 180° by 1° at a time with respect to a direction parallel to the principal surface of a prescribed area on the basis of the result of measurement by the atomic force microscope and the maximum and minimum values of the calculated angular direction arithmetic average roughness Ra_deg are assumed to be Ra_deg_max and Ra_deg_min, respectively, the value of (Ra_deg_max)-(Ra_deg_min) is 0.15 nm to 1.0 nm, inclusive.SELECTED DRAWING: Figure 5
【課題】磁気ディスクの歩留まりを向上させることのできる磁気ディスク用ガラス基板を提供する。【解決手段】主表面を有し、中心部に円形状の孔を有する円盤形状の磁気ディスク用ガラス基板であって、前記磁気ディスク用ガラス基板の中心部側の内周側面部において、原子間力顕微鏡により測定した算術平均粗さRaが0.7nm以下であって、原子間力顕微鏡により測定した結果に基づき、所定の領域を、前記主表面に平行な方向に対して角度方向を0°から180°まで1°ごとに変化させながら各々の角度方向における角度方向算術平均粗さRa_degを算出し、前記算出された角度方向算術平均粗さRa_degのうち、最も大きい値を角度方向算術平均粗さ最大値Ra_deg_maxとし、最も小さい値を角度方向算術平均粗さ最小値Ra_deg_minとした場合に、(Ra_deg_max)−(Ra_deg_min)の値が、0.15nm以上、1.0nm以下であることを特徴とする磁気ディスク用ガラス基板を提供することにより上記課題を解決する。【選択図】 図5 |
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| AbstractList | PROBLEM TO BE SOLVED: To provide a glass substrate for magnetic disks with which it is possible to improve the yield of magnetic disks.SOLUTION: There is provided to solve the above problem a glass substrate for magnetic disks of disc shape having a circular hole at center, wherein an arithmetic average roughness measured by an atomic force microscope on the inner circumferential face on the middle side of the glass substrate for magnetic disks is 0.7 nm or less, and when an angular direction arithmetic average roughness Ra_deg in each angular direction is calculated while changing the angular direction from 0° to 180° by 1° at a time with respect to a direction parallel to the principal surface of a prescribed area on the basis of the result of measurement by the atomic force microscope and the maximum and minimum values of the calculated angular direction arithmetic average roughness Ra_deg are assumed to be Ra_deg_max and Ra_deg_min, respectively, the value of (Ra_deg_max)-(Ra_deg_min) is 0.15 nm to 1.0 nm, inclusive.SELECTED DRAWING: Figure 5
【課題】磁気ディスクの歩留まりを向上させることのできる磁気ディスク用ガラス基板を提供する。【解決手段】主表面を有し、中心部に円形状の孔を有する円盤形状の磁気ディスク用ガラス基板であって、前記磁気ディスク用ガラス基板の中心部側の内周側面部において、原子間力顕微鏡により測定した算術平均粗さRaが0.7nm以下であって、原子間力顕微鏡により測定した結果に基づき、所定の領域を、前記主表面に平行な方向に対して角度方向を0°から180°まで1°ごとに変化させながら各々の角度方向における角度方向算術平均粗さRa_degを算出し、前記算出された角度方向算術平均粗さRa_degのうち、最も大きい値を角度方向算術平均粗さ最大値Ra_deg_maxとし、最も小さい値を角度方向算術平均粗さ最小値Ra_deg_minとした場合に、(Ra_deg_max)−(Ra_deg_min)の値が、0.15nm以上、1.0nm以下であることを特徴とする磁気ディスク用ガラス基板を提供することにより上記課題を解決する。【選択図】 図5 |
| Author | TAKANO SHIGEKI YOSHIDA KAYOSHI ITO MASABUMI |
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| DocumentTitleAlternate | 磁気ディスク用ガラス基板及び磁気ディスク |
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| RelatedCompanies | ASAHI GLASS CO LTD |
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| Snippet | PROBLEM TO BE SOLVED: To provide a glass substrate for magnetic disks with which it is possible to improve the yield of magnetic disks.SOLUTION: There is... |
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| Title | GLASS SUBSTRATE FOR MAGNETIC DISK AND MAGNETIC DISK |
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