Patent application number | Description | Published |
20090206975 | Magnet Core and Method for Its Production - Magnet cores pressed using a powder of nanocrystalline or amorphous particles and a pressing additive should be characterised by minimal iron losses. These particles have first surfaces represented by the original strip surfaces and second surfaces represented by surfaces produced in a pulverisation process, the overwhelming majority of these second particle surfaces being smooth cut or fracture surfaces without any plastic deformation, the proportion T of areas of plastic deformation of the second particle surfaces being 0≦T≦0.5. | 08-20-2009 |
20090320961 | Method For The Production Of Magnet Cores, Magnet Core And Inductive Component With A Magnet Core - A magnet core is required to be particularly dense, made of alloys produced in a rapid solidification process and have a minimal coercitive field strength. To achieve these aims, a coarse-grain powder fraction is first produced from an amorphous strip of a soft magnetic alloy. In addition, at least one fine-grain powder fraction is produced from a nanocrystalline strip of a soft magnetic alloy. The particle fractions are then mixed to produce a multi-modal powder, wherein the particles of the coarse-grain particle fraction have an amorphous structure and the particles of the fine-grain powder fraction have a nanocrystalline structure. The multi-modal powder is then pressed to produce a magnet core. | 12-31-2009 |
20100090678 | Method for Producing an Electricity Sensing Device - A method for producing an electricity sensing device with a one-piece, U-shaped bent current conductor of a certain length having a middle portion and two end portions and comprising in the middle portion the form of a rod having a non-rectangular conductor cross-section and featuring flats having a rectangular conductor cross-section in its end portions, and arranged in the middle portion a magnetic module comprising a lead-through for mounting the current conductor, the method comprising the steps: providing the magnetic module as well as a current conductor configured straight and rod-shaped in the middle portion and in at least one of the end portions; tin-coating the current conductor at least partly in at least one end portion; positioning the current conductor and the magnetic module relative to each other such that the current conductor is located in the lead-through of the module by its middle portion, and shaping the current conductor into a U with flattened ends. | 04-15-2010 |
20100194507 | Method for the Production of Magnet Cores, Magnet Core and Inductive Component with a Magnet Core - A magnet core ( | 08-05-2010 |
20100237978 | Method for the production of powder composite cores and powder composite core - A powder composite core is to be particularly dense and strong while being produced from soft magnetic alloys. In particular, the expansion of the heat-treated core is to be avoided. To produce this core, a strip of a soft magnetic alloy is first comminuted to form particles. The particles are mixed with a first binder having a curing temperature T | 09-23-2010 |
20100265016 | Magnet Core; Method for Its Production and Residual Current Device - A magnet core ( | 10-21-2010 |
20110056588 | Method For The Production Of Magnet Cores, Magnet Core And Inductive Component With A Magnet Core - A magnet core is required to be particularly dense, made of alloys produced in a rapid solidification process and have a minimal coercitive field strength. To achieve these aims, a coarse-grain powder fraction is first produced from an amorphous strip of a soft magnetic alloy. In addition, at least one fine-grain powder fraction is produced from a nanocrystalline strip of a soft magnetic alloy. The particle fractions are then mixed to produce a multi-modal powder, wherein the particles of the coarse-grain particle fraction have an amorphous structure and the particles of the fine-grain powder fraction have a nanocrystalline structure. The multi-modal powder is then pressed to produce a magnet core. | 03-10-2011 |
20120013331 | Method for Producing a Current Metering Device - A method for producing a current metering device with current conductor optionally made of aluminum or aluminum alloy, which has a middle section in the form of a bar and two end sections with flattened areas, and is bent between one end section at a time and the middle section, a magnetic module which has a bushing which holds the current conductor, and two copper or copper alloy sleeves which are applied at least to parts of the end sections of the current conductor. | 01-19-2012 |
20130088401 | ANTENNA CORE, ANTENNA, AND METHODS FOR PRODUCING AN ANTENNA CORE AND AN ANTENNA - The invention relates to an antenna core, an antenna comprising an antenna core, and to methods for producing an antenna core and an antenna. The antenna core used in each case consists of a continuous soft-magnetic strip having a plurality of layers which are stacked one on top of the other and each of which is formed by a section of the strip. The layers are connected to one another by curved sections of the strip at end regions of the antenna core. | 04-11-2013 |
20140221530 | COMPOSITION FOR AN ADHESIVE MATERIAL - A composition for an adhesive material, comprising at least one epoxide resin mixture and a hardening accelerator, in which the epoxide resin mixture has 25 to 80% by weight of a first epoxide resin—whereby the first epoxide resin is a bifunctional aliphatic, cycloaliphatic or aromatic epoxide resin—and 12.5 to 40% by weight of a second epoxide resin—whereby the second epoxide resin is a polyfunctional aliphatic or aromatic epoxide resin—and in which the hardening accelerator is an imidazole derivative, which is not soluble in the epoxide resin mixture at temperatures of below 50° C. | 08-07-2014 |