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    • 1. 发明授权
    • Transport system for nanoparticles and method for the operation thereof
    • 纳米粒子运输系统及其操作方法
    • US07699077B2
    • 2010-04-20
    • US11628498
    • 2005-06-08
    • Jens Dahl JensenUrsus KrugerVolkmar LuthenHeike Schiewe
    • Jens Dahl JensenUrsus KrugerVolkmar LuthenHeike Schiewe
    • F15C1/04
    • C23C14/246Y10T137/0391Y10T137/2082Y10T137/2191
    • A transport system for dry nanoparticles (18b). According to the invention, the nanoparticles (18b) are magnetized or electrically charged for transportation, a magnetic or electrical field is produced by a field generator (20a, 20) in the transport channel, and the nanoparticles (18b) migrate through the transport channel (12). The nanoparticles can be discharged through a discharge opening (13) which enables dosing to take place. In order to agglomerate the nanoparticles (18b) or to prevent attachment onto the inner wall (26), a coating (27) of the wall can be offset in oscillations by piezo electric actuators (28), the oscillations being transferred to the nanoparticles (18b). The dry nanoparticles can be handled in an advantageous manner due to the transport system, such that the dry nanoparticles need not be treated as a suspension.
    • 干燥纳米粒子的输送系统(18b)。 根据本发明,纳米颗粒(18b)被磁化或带电用于运输,磁场或电场由输送通道中的场发生器(20a,20)产生,并且纳米颗粒(18b)迁移通过输送通道 (12)。 纳米颗粒可以通过排出口(13)排出,这使得能够进行计量。 为了聚集纳米颗粒(18b)或防止附着在内壁(26)上,壁的涂层(27)可以通过压电致动器(28)的摆动来偏移,振荡被转移到纳米颗粒( 18b)。 由于运输系统,干燥的纳米颗粒可以以有利的方式处理,使得干燥的纳米颗粒不需要被视为悬浮液。
    • 5. 发明授权
    • Component for the sliding support of another component, and process for producing it
    • 用于另一部件的滑动支撑的部件,以及用于制造它的过程
    • US08314053B2
    • 2012-11-20
    • US12676500
    • 2008-09-04
    • Jens Dahl JensenUrsus KrügerHeike SchieweManuela SchneiderGabriele WinklerHartmut Walter
    • Jens Dahl JensenUrsus KrügerHeike SchieweManuela SchneiderGabriele WinklerHartmut Walter
    • F16C33/06C10M103/06
    • F16C33/14F16C33/043F16C2220/20F16C2223/70Y10T29/49647
    • The invention relates to a component that is suitable for use as a sliding bearing. The invention further relates to a method for the production of said component. The design of the component according to the invention provides a layer of a light metal material (13), which is provided with an oxide layer (15) containing pores (16) in the direction of the sliding surface (23) of the component. A hard material (18) is placed in the pores, which greatly increases the firmness of said layer region, thus creating the mechanical firmness for use as a sliding bearing. In order to counteract the tendency of said firm layer region to experience brittle failure, the oxide layer (15) is coated with a solid lubricant layer (20). Said solid lubricant layer comprises a metallic, ductile matrix (21), which distributes a force (F) acting at certain points over a larger surface region (b). In order to improve the sliding characteristics, particles of a solid lubricant (22) are simultaneously embedded in the solid lubricant layer (20).
    • 本发明涉及适用于滑动轴承的部件。 本发明还涉及生产所述组分的方法。 根据本发明的部件的设计提供了一种轻金属材料层(13),其在该部件的滑动表面(23)的方向上设置有包含孔(16)的氧化物层(15)。 一个硬质材料(18)被放置在孔中,这大大增加了所述层区域的硬度,从而产生用作滑动轴承的机械硬度。 为了抵消所述牢固层区域经历脆性破坏的倾向,氧化物层(15)涂覆有固体润滑剂层(20)。 所述固体润滑剂层包括金属的延性基体(21),其分配在较大表面区域(b)上的某些点处作用的力(F)。 为了提高滑动特性,固体润滑剂(22)的颗粒同时嵌入固体润滑剂层(20)中。