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    • 3. 发明授权
    • Method and apparatus for persistent object tool
    • 持久性对象工具的方法和装置
    • US08438535B2
    • 2013-05-07
    • US11633851
    • 2006-12-04
    • Yawei Sun
    • Yawei Sun
    • G06F9/44
    • G06F9/44526G06F9/4493
    • A method and an apparatus that execute executable codes to install a persistent object from a storage into an application server to access remote services in an EIS are described. The executable codes are based on relational properties for mapping an API (Application Programming Interface) function of an EIS to an object of a cross-platform connection framework coupling the EIS with the application server. The application server is enabled to access the API function of the EIS via the persistent object as part of the cross-platform connection framework.
    • 描述了执行可执行代码以从存储器安装持久对象到应用服务器以访问EIS中的远程服务的方法和装置。 可执行代码基于用于将EIS的API(应用程序编程接口)功能映射到将EIS与应用程序服务器耦合的跨平台连接框架的对象的关系属性。 应用服务器能够通过持久化对象访问EIS的API函数,作为跨平台连接框架的一部分。
    • 7. 发明申请
    • Method and apparatus for persistent tool object
    • 持久性工具对象的方法和装置
    • US20080134217A1
    • 2008-06-05
    • US11633851
    • 2006-12-04
    • Yawei Sun
    • Yawei Sun
    • G06F9/44
    • G06F9/44526G06F9/4493
    • A method and an apparatus that execute executable codes to install a persistent object from a storage into an application server to access remote services in an EIS are described. The executable codes are based on relational properties for mapping an API (Application Programming Interface) function of an EIS to an object of a cross-platform connection framework coupling the EIS with the application server. The application server is enabled to access the API function of the EIS via the persistent object as part of the cross-platform connection framework.
    • 描述了执行可执行代码以从存储器安装持久对象到应用服务器以访问EIS中的远程服务的方法和装置。 可执行代码基于用于将EIS的API(应用程序编程接口)功能映射到将EIS与应用程序服务器耦合的跨平台连接框架的对象的关系属性。 应用服务器能够通过持久化对象访问EIS的API函数,作为跨平台连接框架的一部分。
    • 9. 发明授权
    • Laser separation of glass sheets
    • 玻璃板的激光分离
    • US08051679B2
    • 2011-11-08
    • US12240356
    • 2008-09-29
    • Anatoli Anatolyevich AbramovMarvin William KemmererYawei SunNaiyue Zhou
    • Anatoli Anatolyevich AbramovMarvin William KemmererYawei SunNaiyue Zhou
    • C03B33/00C03B33/02C03B33/037
    • C03B33/093C03B33/091
    • Methods of using a laser to separate a glass sheet is presented that employs an elongated and, preferably, asymmetrically-truncated laser beam. The methods allow glass sheets suitable for use in modern display applications to be separated at speeds up to about 200 mm/s with low levels of residual stress, e.g., levels of residual stress which are less than or equal to 100 psi, and preferably less than 50 psi. Glasses with high coefficients of thermal expansion (e.g. greater than about 35×10−7/° C.) may be separated at faster speeds. Such low levels of residual stress translate into low levels of distortion during the manufacture of display panels (e.g., LCD panels) as well as in improved properties (geometry, strength, defect-free etc.) of the separated edges. The methods can be used with glasses of various types including glasses having high coefficients of thermal expansion and also with glass sheets of different thickness.
    • 提出了使用激光器分离玻璃板的方法,其采用细长的,优选地,非对称截断的激光束。 这些方法允许适用于现代显示应用的玻璃板以高达约200mm / s的速度分离,具有低水平的残余应力,例如小于或等于100psi的残余应力水平,优选较小 超过50psi。 可以以更快的速度分离具有高热膨胀系数(例如大于约35×10 -7 /℃)的玻璃。 残余应力的这种低水平在显示面板(例如,LCD面板)的制造期间以及改进的分离边缘的性质(几何形状,强度,无缺陷等)转化为低水平的变形。 该方法可用于各种类型的玻璃,包括具有高热膨胀系数的玻璃以及不同厚度的玻璃板。
    • 10. 发明授权
    • Laser scoring of glass sheets at high speeds and with low residual stress
    • 高速玻璃板激光刻痕,残余应力低
    • US08011207B2
    • 2011-09-06
    • US12008949
    • 2008-01-15
    • Anatoli A. AbramovYawei SunWei XuNaiyue Zhou
    • Anatoli A. AbramovYawei SunWei XuNaiyue Zhou
    • C03B33/00C03B33/02C03B33/037
    • C03B33/091Y02P40/57
    • Experimental data is presented which shows that laser scoring of glass sheets (112) with existing techniques produces unacceptable levels of residual stress in the separated sheets as the scoring speed is increased. Methods for solving this problem are disclosed which employ elongated and, preferably, asymmetrically-truncated laser beams (13). The methods allow glass sheets (112) to be scored at speeds of 1000 mm/s and above with low levels of residual stress, e.g., levels of residual stress which are less than or equal to 500 psi. Such low levels of residual stress translate into low levels of distortion during the manufacture of display panels (e.g., LCD panels) as well as in improved properties of the separated edges. The methods can be used with glasses of various types including glasses having low coefficients of thermal expansion.
    • 实验数据显示,现有技术的玻璃板(112)的激光刻痕在分选片材中随着刻痕速度的提高而产生不可接受的残余应力水平。 公开了解决这个问题的方法,其采用细长的,优选的是非对称截断的激光束(13)。 该方法允许玻璃板(112)以低于或等于1000mm / s的速度以低水平的残余应力(例如残余应力的水平小于或等于500psi)进行刻痕。 这种低水平的残余应力在显示面板(例如LCD面板)的制造过程中转化为低水平的变形以及分离边缘的改进的性质。 该方法可用于各种类型的眼镜,包括具有低热膨胀系数的眼镜。