The soft magnetic material multilayer deposition apparatus includes a circular arrangement of a multitude of substrate carriers in a circular inner space of a vacuum transport chamber. In operation the substrate carriers pass treatment stations. One of the treatment stations has a sputtering target made of a first soft magnetic material. A second treatment station includes a target made of a second soft magnetic material which is different from the first soft magnetic material of the first addressed target. A control unit controlling relative movement of the substrate carriers with respect to the treatment stations provides for more than one 360 revolution of the multitude of substrate carriers around the axis AX of the circular inner space of the vacuum transport chamber, while the first and second treatment stations are continuously operative.

A magnetic material sputtering target formed from a sintered body containing at least Co and/or Fe and B, and containing B in an amount of 10 to 50 at %, wherein an oxygen content is 100 wtppm or less. Since the magnetic material sputtering target of the present invention can suppress the generation of particles caused by oxides, the present invention yields superior effects of being able to improve the yield upon producing magnetoresistive films and the like.

A macroparticle filter device for cathodic arc evaporation, to be placed between at least one arc evaporation source and at least one substrate exhibiting at least a surface to be coated with material evaporated from a cathode of the arc evaporation source in a vacuum coating chamber. The macroparticle filter device includes one or more filter components that can prevent macroparticles emitted by the cathode during cathodic arc evaporation to arrive the substrate surface to be coated. The at least one component is provided as one or more flexible sheets that block the lineal way of the macroparticles from the cathode to the substrate surface to be coated. Further a method for utilizing the macroparticle filter device is presented.

A razor blade substrate having a substrate that includes a blade edge portion having a profiled geometry which is covered by a strengthening coating deposited on the razor blade substrate at least at the blade edge portion. The strengthening coating covering the blade edge tip, having a profiled geometry and having a tapering geometry with two coating sides converge toward a blade edge tip. The strengthening coating includes a strengthening layer made of a titanium- and boron-containing material.

The present disclosure provides an improvement to razor blade coating by a physical vapor deposition method, by forming a hard coating layer as a thin coating layer in which chromium boride, which is a nanocrystalline structure having high hardness, is dispersed in an amorphous mixture of chromium and boron, thereby improving the strength and hardness of the thin coating layer and securing the bonding force by chromium in the amorphous mixture between the hard coating layer and a blade substrate on which an edge of the razor blade is formed.

A corrosion resistant coating suitable for use in harsh environments, such as for protecting a temperature probe for continuous use in the Hall-H?roult process can include at least one first layer comprising a metal boride and at least one second layer comprising a metal interposed between the substrate and the at least one metal boride layer. The coating can have a thickness of less than 10 micrometers.

A razor blade substrate having a substrate that includes a blade edge portion having a profiled geometry which is covered by a strengthening coating deposited on the razor blade substrate at least at the blade edge portion. The strengthening coating covering the blade edge tip, having a profiled geometry and having a tapering geometry with two coating sides converge toward a blade edge tip. The strengthening coating includes a strengthening layer made of a titanium- and boron-containing material.

The present invention relates to a personal care device having a surface intended to engage the skin and/or hair, such as a blade razor or an electric shaver. The surface of such a device is formed from a substrate on which a hard coating layer is provided. A lubricating layer comprising pendant hydrophilic polymer chains is provided on the hard coating. The hard coating has particles incorporated therein, said particles having covalently attached thereto said pendant hydrophilic polymer chains. In addition, the present invention relates to a process of making a skin engaging surface for such personal care devices.

A coated substrate comprising a metal or metal alloy such as a high speed steel, TiAl based alloy or Ni based alloy or an electrically conductive ceramic material, wherein the coating comprises a hard material protective coating comprising alternating layers of different compositions, wherein a first composition of the alternating layers comprises silicon, Si, and/or a second composition of the alternating layers comprises boron, B.

A workpiece having a coating which has at least one TiB.sub.2 layer, characterized in that the TiB.sub.2 layers have a texture, in the XRD-spectrum, which leads to significant peaks which display a pronounced (002) orientation. The invention also relates to a method for producing said type of workpiece with a coating.