Abstract: A method for manufacturing a battery system, in which to manufacture, simply and inexpensively, a battery system having improved service life, performance, and safety, in the method battery cells are positioned by at least one mounting grid for positioning battery cells and/or by positioning ribs and/or positioning projections in the interior space of a battery system housing or of a potting mold which are configured for positioning battery cells, and/or by a mounting gripper for positioning battery cells, and at least partly potted with at least one potting compound. Also described are a corresponding battery system and a suitable reactive resin system or a suitable potting compound.

Abstract: A semi-finished product for the, in particular, thermal and/or electrical contacting of components, for example, battery cells and/or electronics components. In order to simplify methods for manufacturing electrical and/or electrochemical and/or electronic assemblies, for example, batteries and/or electronics assemblies, a semi-finished product is provided, which includes at least one epoxy resin based on bisphenol A and/or bisphenol F, at least one filler, and at least one hardener and/or catalyst. A reaction resin system and a manufacturing method are also described.

Abstract: A method for manufacturing a battery system, in which to manufacture, simply and inexpensively, a battery system having improved service life, performance, and safety, in the method battery cells are positioned by at least one mounting grid for positioning battery cells and/or by positioning ribs and/or positioning projections in the interior space of a battery system housing or of a potting mold which are configured for positioning battery cells, and/or by a mounting gripper for positioning battery cells, and at least partly potted with at least one potting compound. Also described are a corresponding battery system and a suitable reactive resin system or a suitable potting compound.

Abstract: A curable reaction resin system can be used for example as a casting compound, molding compound, or high-temperature resin, and is to be processed as a two-component compound. The system has a first reaction resin component and a second reaction resin component, the first reaction resin component being epoxy-free and realized on the basis of a cyanate ester.

Abstract: The object of the patent is to provide a modified reaction resin, comprising: a) at least one cyanate tester; b) at least one polyorganosiloxane contained in the reaction resin in finely distributed form. The thus modified reaction resin is stable for storage for long periods in non-cured form and can be cured to form duromers with advantageous mechanical characteristics.

Abstract: A method for gluing components is provided, forming an adhesive layer which is capable of functioning, at least in a temperature range of ?100° C. to ?160° C., wherein the adhesive layer is obtained from a curable reactive resin system. The reactive resin system includes an epoxy resin component and polymer particles dispersed in the epoxy resin component, the dispersed polymer particles furthermore including addition-crosslinked silicone elastomer. Also provided is the use of a reactive resin system for gluing piezoelectric ceramics and/or permanent magnets including rare earth elements and a component configuration including a piezoelectric ceramic, an impedance matching layer and an adhesive layer in contact with the piezoelectric ceramic and the impedance matching layer.

Abstract: A hardenable epoxy-free reaction resin system, in particular a casting compound, lacquer, laminating or impregnating resin, which contains an epoxy-free resin component, a mineral filler, and polymer particles dispersed in the resin component. The filler includes nanoparticles.

Abstract: A plastic molding material contains at least one filler and a polymer resin, selected from the group made up of cyanate ester resins, epoxy novolac resins, multifunctional epoxy resins, bismaleimide resins and their mixtures. The proportion of filler in the plastic molding material is in the range of 65 to 92 wt. %, with reference to the overall mass of the plastic molding material.

Abstract: A method for gluing components is provided, forming an adhesive layer which is capable of functioning, at least in a temperature range of ?100° C. to ?160° C., wherein the adhesive layer is obtained from a curable reactive resin system. The reactive resin system includes an epoxy resin component and polymer particles dispersed in the epoxy resin component, the dispersed polymer particles furthermore including addition-crosslinked silicone elastomer. Also provided is the use of a reactive resin system for gluing piezoelectric ceramics and/or permanent magnets including rare earth elements and a component configuration including a piezoelectric ceramic, an impedance matching layer and an adhesive layer in contact with the piezoelectric ceramic and the impedance matching layer.

Abstract: A curable reaction resin system can be used for example as a casting compound, molding compound, or high-temperature resin, and is to be processed as a two-component compound. The system has a first reaction resin component and a second reaction resin component, the first reaction resin component being epoxy-free and realized on the basis of a cyanate ester.

Abstract: A curable reaction resin system is described, which is to be processed as a two-component mass and which contains a resin component, a curing agent as well as polymer particles that are dispersed in the resin component, the polymer particles being contained in the reaction resin system at a proportion of more than 25 and up to 50 wt. %.

Abstract: The object of the patent is to provide a modified reaction resin, comprising: a) at least one cyanate tester; b) at least one polyorganosiloxane contained in the reaction resin in finely distributed form. The thus modified reaction resin is stable for storage for long periods in non-cured form and can be cured to form duromers with advantageous mechanical characteristics.

Abstract: A casting compound based on a resin which cures by a chemical reaction. The casting compound is suitable for insulation of electric components and contains an epoxy resin component, a silicone-containing component, a filler, and a thermal initiator. This casting compound is processible as a single-component system.

Abstract: A resin-based casting compound which cures by a chemical reaction is described; it is suitable in particular for insulation of electric components and it contains an epoxy resin component (A), a silicone-containing component (B), a filler (C), by the choice of which the thermal conductivity of the casting compound is adjustable, and a thermal initiator (D). The casting compound has a thermal conductivity of ?2 W/mK.

Abstract: A hardenable epoxy-free reaction resin system, in particular a casting compound, lacquer, laminating or impregnating resin, which contains an epoxy-free resin component, a mineral filler, and polymer particles dispersed in the resin component. The filler includes nanoparticles.

Abstract: A resin-based casting compound which cures by a chemical reaction is described; it is suitable in particular for insulation of electric components and it contains an epoxy resin component (A), a silicone-containing component (B), a filler (C), by the choice of which the thermal conductivity of the casting compound is adjustable, and a thermal initiator (D). The casting compound has a thermal conductivity of ≧2 W/mK.

Abstract: A casting compound based on a resin which cures by a chemical reaction. The casting compound is suitable for insulation of electric components and contains an epoxy resin component, a silicone-containing component, a filler, and a thermal initiator. This casting compound is processible as a single-component system.

Abstract: A casting compound having a high thermal stability is described; as a one-component system, it is stable in storage and contains an epoxy resin component, a filler, and an initiator. The filler contains silanized fused silica.

Abstract: The invention relates to a winding that is received in a magnet pot. The winding is formed of a wire, in particular baked enamel wire, which is provided with a coating that causes the winding to hold together. In producing the magnet coil, the winding is inserted into the magnet pot and then potted with a low-viscosity potting material.

Abstract: Epoxy resin casting compositions comprising(a) a liquid aromatic glycidyl or .beta.-methylglycidyl ether or a liquid mixture of several aromatic glycidyl or .beta.-methylglycidyl ethers containing on average more than one glycidyl ether group per molecule,(b) one or more than one acid hardener for the glycidyl ether,(c) a curing accelerator,(d) a filler mixture containing calcite and wollastonite in an amount from 40 to 60% by weight, based on components (a), (b) and (d), and as optional components,(e) customary additives for epoxy resin casting compositions are suitable in particular for coating or encapsulating electrical or electronic components and, more particularly, electrical ignition coils.