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    • 3. 发明专利
    • DE69824005D1
    • 2004-06-24
    • DE69824005
    • 1998-07-23
    • 3M INNOVATIVE PROPERTIES COHYDRO QUEBEC
    • HOFFMAN JOSEPH ADOMROESE MICHAEL KLINDEMAN DAVID DRADEWALD VERN EROUILLARD ROGERTRICE JENNIFER L
    • H01M2/10H01M2/20H01M2/26H01M6/10H01M6/18H01M10/04H01M10/40H01M10/50
    • A thermal conductor for use with an electrochemical energy storage device is disclosed. The thermal conductor is attached to one or both of the anode and cathode contacts of an electrochemical cell. A resilient portion of the conductor varies in height or position to maintain contact between the conductor and an adjacent wall structure of a containment vessel in response to relative movement between the conductor and the wall structure. The thermal conductor conducts current into and out of the electrochemical cell and conducts thermal energy between the electrochemical cell and thermally conductive and electrically resistive material disposed between the conductor and the wall structure. The thermal conductor may be fabricated to include a resilient portion having one of a substantially C-shaped, double C-shaped, Z-shaped, V-shaped, O-shaped, S-shaped, or finger-shaped cross-section. An elastomeric spring element may be configured so as to be captured by the resilient conductor for purposes of enhancing the functionality of the thermal conductor. The spring element may include a protrusion that provides electrical insulation between the spring conductor and a spring conductor of an adjacently disposed electrochemical cell in the presence of relative movement between the cells and the wall structure. The thermal conductor may also be fabricated from a sheet of electrically conductive material and affixed to the contacts of a number of electrochemical cells.
    • 4. 发明申请
    • MILL ROLL ANALYSIS SYSTEM
    • 轧机分析系统
    • WO2004078376A3
    • 2005-03-24
    • PCT/US2004000565
    • 2004-01-08
    • 3M INNOVATIVE PROPERTIES COLINDEMAN DAVID DALMQUIST ERIC G
    • LINDEMAN DAVID DALMQUIST ERIC G
    • B21B20060101G06F17/50G06G7/48
    • G06F17/50B21B2265/00B21B2267/00G06F2217/04G06F2217/06Y10T29/49544
    • A mill roll analysis system is described that includes a user interface module, a structural analysis engine, and an analysis control script (22). The user interface module receives mill roll design data from a remote user via a computer network (9). The analysis control script automatically directs the structural analysis engine to define and evaluate an appropriate analytical model for the mill roll design based on the mill roll design data (4). The mill roll analysis system presents an intuitive web-based interface for capturing the mill roll design data, and may present predefined mill roll applications and mill roll types for selection for the user. As a result, the remote user need not be familiar with the underlying analytical modeling techniques, which may be highly-complex by nature. Consequently, a user may utilize the system to evaluate and improve mill roll design in order to achieve increased product performance.
    • 描述了包括用户界面模块,结构分析引擎和分析控制脚本(22)的轧辊分析系统。 用户接口模块经由计算机网络(9)从远程用户接收轧辊设计数据。 分析控制脚本自动指导结构分析引擎,根据轧辊设计数据(4)定义和评估轧辊设计的合适分析模型。 轧辊分析系统提供了直观的基于网络的界面,用于捕获轧辊设计数据,并且可以呈现预定义的轧辊应用和轧辊类型以供用户选择。 因此,远程用户不需要熟悉基本的分析建模技术,这种技术本质上可能非常复杂。 因此,用户可以利用该系统评估和改进轧辊设计,以便实现增加的产品性能。
    • 10. 发明专利
    • THERMAL CONDUCTOR FOR HIGH-ENERGY ELECTROCHEMICAL CELLS
    • CA2297845C
    • 2008-05-06
    • CA2297845
    • 1998-07-23
    • MINNESOTA MINING & MFGHYDRO QUEBEC
    • TRICE JENNIFER LHOFFMAN JOSEPH AROUILLARD ROGERRADEWALD VERN ELINDEMAN DAVID DDOMROESE MICHAEL K
    • H01M10/50H01M2/10H01M2/20H01M2/26H01M6/10H01M6/18H01M10/04H01M10/40
    • A thermal conductor (148) for use with an electrochemical energy storage device (140) is disclosed. The thermal conductor (148) is attached to one or both of the anode and cathode contacts (146) of an electrochemical cell (140). A resilient portion of the conductor (148) varies in height or position to maintain contact between the conductor and an adjacent wall structure of a containment vessel (142) in response to relative movement between the conductor and the wall structur e. The thermal conductor conducts current into and out of the electrochemical cell and conducts thermal energy between the electrochemical cell and thermally conductive and electrically resistive material disposed between the conductor (148) and the wall structure (142). The thermal conductor (148) may be fabricated to include a resilient portion having one of a substantially C-shaped, double C-shaped, Z - shaped, V-shaped, O-shaped, S-shaped, or finger-shaped cross section. An elastomeric spring element may be configured so as to be captured by the resilient conductor for purposes of enhancing the functionality of the thermal conductor. The spring element may include a protrusion that provides electrical insulation between the spring conductor and a spring conductor of an adjacently disposed electrochemical cell (140) in the presence of relative movement between the cells and the wall structure. The thermal conductor (148) may also be fabricated from a sheet of electrically conductive material and affixed to the contacts of a number of electrochemical cells.