会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Apparatus for color-based sorting of titanium fragments
    • 钛碎片颜色分选装置
    • US6043445A
    • 2000-03-28
    • US291920
    • 1999-04-14
    • Michael Francis Xavier Gigliotti, Jr.Mark Gilbert BenzRussell Scott Miller
    • Michael Francis Xavier Gigliotti, Jr.Mark Gilbert BenzRussell Scott Miller
    • B07C5/342G06R9/00
    • B07C5/365B07C5/3425Y10S209/939
    • An apparatus for sorting fragments of titanium-based sponge on the basis of color is disclosed. The apparatus captures at least one color image of each fragment, inserts relevant color values from the image into an automated color-sorting system to determine the color of the fragment, and segregates the fragments according to color or range-of-color, by way of a physical segregation apparatus controlled by the color sorting system. The color sorting systems usually involve the conversion of color images from the fragments into color signals, which are in turn transformed into color values. The color images are usually represented by a pattern of pixels. The color values are automatically compared to values, which are part of a look-up table based on data sets, which embrace acceptable or rejectable color values. Comparison of color values determined for the fragments with those in the look-up table results in the acceptance or rejection of each fragment.
    • 公开了一种基于颜色分选钛基海绵碎片的设备。 该装置捕获每个片段的至少一个彩色图像,将来自图像的相关颜色值插入到自动颜色分选系统中以确定片段的颜色,并根据颜色或颜色范围分离片段 由颜色分选系统控制的物理分离装置。 颜色分类系统通常涉及将彩色图像从片段转换为彩色信号,然后将其转换为颜色值。 彩色图像通常由像素图案表示。 颜色值将自动与值进行比较,这些值是基于数据集的查找表的一部分,数据集包含可接受或可拒绝的颜色值。 将该片段的颜色值与查找表中的颜色值的比较导致每个片段的接受或拒绝。
    • 7. 发明授权
    • Method for controlling flux concentration in guide tubes
    • 控制导管中通量浓度的方法
    • US06358297B1
    • 2002-03-19
    • US09474419
    • 1999-12-29
    • Robert John ZabalaHoward Roscoe Hart, Jr.Mark Gilbert BenzBruce Alan KnudsenWilliam Thomas Carter, Jr.Russell Scott Miller
    • Robert John ZabalaHoward Roscoe Hart, Jr.Mark Gilbert BenzBruce Alan KnudsenWilliam Thomas Carter, Jr.Russell Scott Miller
    • C22B918
    • C22B9/18
    • A method for controlling electromagnetic flux concentration in a discharge guide tube for a metal refining apparatus is provided. The discharge guide tube comprises a base plate, an extension, a central orifice that extends through the extension from a source of liquid metal to an outlet in the discharge guide tube for directing a stream of metal therethrough, and an interior discharge guide tube flux concentration configuration; an induction heater system that generates an electromagnetic field in the discharge guide tube, the induction heater system being disposed on the extension with a gap defined therebetween, the induction heater system and the discharge guide tube being capable of relative vertical movement and subsequent positions with respect to each other with the gap being essentially constant. The method for providing electromagnetic flux concentration comprises providing current to the induction heater system; generating an electromagnetic field resulting from the step of providing current; and directing an electromagnetic flux to the central orifice at locations defined by the interior discharge guide tube. The step of generating an electromagnetic flux also generates heat and the step of generating heat provides a control of the flow of the stream of metal in its liquidus condition. The electromagnetic field is applied at a substantially constant level regardless of the relative vertical movement and subsequent positions between the induction heater system and the discharge guide tube.
    • 提供了一种用于控制用于金属精炼装置的排放导管中的电磁通量浓度的方法。 排出导管包括基板,延伸部,中心孔,其从液态金属源延伸到排出引导管中的出口,用于引导金属流通过其中,并且内部排出导管通量集中 组态; 感应加热器系统,其在所述排出导管中产生电磁场,所述感应加热器系统设置在所述延伸部上,其间限定有间隙,所述感应加热器系统和所述排出导管能够相对垂直移动, 彼此之间的间隙基本上是恒定的。 提供电磁通量浓度的方法包括向感应加热器系统提供电流; 产生由提供电流的步骤产生的电磁场; 以及在由所述内部排放导管限定的位置处将电磁通量引导到所述中心孔口。 产生电磁通量的步骤也产生热量,产生热量的步骤提供金属流在其液相线条件下的流动的控制。 电磁场以基本恒定的水平施加,而不管感应加热器系统和排放导管之间的相对垂直运动和随后的位置如何。
    • 9. 发明授权
    • Methods of close-coupled atomization of metals utilizing
non-axisymmetric fluid flow
    • 使用非轴对称流体流动的金属近似雾化的方法
    • US5656061A
    • 1997-08-12
    • US442427
    • 1995-05-16
    • Steven Alfred MillerRussell Scott Miller
    • Steven Alfred MillerRussell Scott Miller
    • B22F9/08
    • B22F9/082B22F2009/0856B22F2009/088
    • Close-coupled atomization methods employing non-axisymmetric fluid flow geometries have demonstrated superior efficiency in the production of fine superalloy powder, such as, for example, nickel base superalloys compared to conventional close-coupled atomization utilizing an axisymmetric gas orifice and an axisymmetric melt nozzle. It is believed that the principal physical mechanisms leading to non-axisymmetric atomization system fine powder yield improvement are atomization plume spreading, the at least lessening of the melt pinch down at the interaction point between the atomization liquid and the liquid melt and improved melt film formation at the melt guide tube tip. The greatest fine powder yield improvement occurred when the non-axisymmetric atomization systems are operated with atomization parameters that result in the formation of multiple atomization plumes. Recognition of the atomization plume characteristics ranging from pinch-down to spreading to multiple sub-plume formation provides a basis for atomization process control to provide the greatest fine powder yield improvement verses conventional close-coupled axisymmetric atomization systems.
    • 使用非轴对称流体流动几何形状的紧耦合雾化方法已经证明,与使用轴对称气体孔和轴对称熔体喷嘴的常规紧耦合雾化相比,精细超级合金粉末的生产,例如镍基超级合金具有优异的效率 。 据信,导致非轴对称雾化系统细粉产率提高的主要物理机制是雾化羽流扩散,熔体在雾化液体和液体熔体之间的相互作用点处至少减少,并改善熔体膜形成 在熔体引导管尖端。 当非轴对称雾化系统以导致形成多个雾化羽流的雾化参数运行时,发生最大的细粉产量改进。 识别从夹紧到扩展到多次羽流形成的雾化羽流特征为雾化过程控制提供了基础,以提供与传统的近耦合轴对称雾化系统相比最大的细粉产量提高。