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    • 1. 发明授权
    • Prepared ceramic powder
    • 制备陶瓷粉末
    • US06254991B1
    • 2001-07-03
    • US09436346
    • 1999-11-09
    • Yasuhisa KonoKenji SaitoYoichi MizunoHirokazu Chazono
    • Yasuhisa KonoKenji SaitoYoichi MizunoHirokazu Chazono
    • B32B1502
    • C04B35/62818C04B35/4682C04B35/472C04B35/49C04B35/491C04B35/628C04B35/62805C04B35/62826C04B35/62886C04B2235/3215C04B2235/3234C04B2235/3236C04B2235/3239C04B2235/3241C04B2235/3249C04B2235/3251C04B2235/3267C04B2235/3277C04B2235/5445H01G4/12H01G4/1227H01G4/1245Y10T428/2991
    • The process for preparing ceramic powder having a core-shell structure by dissolving a crystalline ceramic powder In water so as to leave a core portion of the ceramic powder while heating; depositing a component of the ceramic powder dissolved in the water on and around surfaces of the core portion thereof as a deposited material from the water by gradually cooling the ceramic powder and the water obtained in the step of dissolving; and firing a mixture of the ceramic powder obtained in the step of depositing with an additive at a high temperature to subject the deposited material and the additive to solid phase reaction to form a shell portion on and around the core portion of the ceramic powder. The process can produce the ceramic powder having a core-shell structure from a crystalline ceramic powder, thereby achieving high electrical and mechanical features when formed into ceramic electronic parts. On the other hand, conventional ceramic electronic parts produced from highly crystalline ceramic powder raise the manufacturing cost because such ceramic powder is low in reactivity so that it requires high firing temperature. Ceramic powder in a core-shell structure produced from low-crystalline ceramic powder results to conventional ceramic electronic parts which are poor in electrical and mechanical characteristics.
    • 通过将结晶陶瓷粉末溶解在水中以在加热时留下陶瓷粉末的核心部分来制备具有核 - 壳结构的陶瓷粉末的方法; 通过逐渐冷却陶瓷粉末和溶解步骤中得到的水,将从其水中沉积的作为沉积材料的芯部的表面上的溶解在水中的陶瓷粉末的组分沉淀在水中; 并在高温下焙烧在沉积步骤中与添加剂步骤获得的陶瓷粉末的混合物,以使沉积材料和添加剂进行固相反应,以在陶瓷粉末的芯部分上和周围形成壳部分。 该方法可以从陶瓷粉末制成具有核 - 壳结构的陶瓷粉末,从而在形成陶瓷电子部件时实现高的电气和机械特性。另一方面,由高结晶陶瓷粉末制备的常规陶瓷电子部件提高了 制造成本是因为这样的陶瓷粉末的反应性低,因此需要高的烧制温度。 由低结晶陶瓷粉末制成的芯壳结构中的陶瓷粉末导致电气和机械特性差的常规陶瓷电子部件。
    • 4. 发明授权
    • Disk array system
    • 磁盘阵列系统
    • US08402210B2
    • 2013-03-19
    • US12422538
    • 2009-04-13
    • Akihiro MannenYoichi MizunoMasahiro Arai
    • Akihiro MannenYoichi MizunoMasahiro Arai
    • G06F13/12
    • G06F11/1076G06F2211/104
    • Provided is a disk array system which is connected to a computer and which data is transmitted by the computer, including: a plurality of disk drives for storing user data transmitted by the computer; a cache memory for temporarily storing data sent/received among the computer and the plurality of disk drives; and a control unit for controlling input/output of the data to/from the cache memory, in which the control unit stores user data identification information that is capable of judging whether the user data is stored in a sector of the disk drive. The disk array system according to this invention allows the identification of user data of a disk drive.
    • 提供一种连接到计算机的磁盘阵列系统,由计算机发送数据,包括:多个磁盘驱动器,用于存储计算机发送的用户数据; 用于临时存储在计算机和多个盘驱动器之间发送/接收的数据的高速缓冲存储器; 以及控制单元,用于控制与高速缓冲存储器的数据的输入/输出,其中控制单元存储能够判断用户数据是否存储在磁盘驱动器的扇区中的用户数据识别信息。 根据本发明的磁盘阵列系统允许识别磁盘驱动器的用户数据。