Abstract: The present invention relates to novel surfactant mixtures comprising at least one compound A whose dynamic surface tension ?dyn. at a use concentration of 0.1% by weight and a bubble lifetime of 100 ms is <45 mN/m, and at least one compound B whose static surface tension ystat measured at a use concentration of 0.1% by weight is less than or equal to the static surface tension Ystat of compound A, to the use thereof as additives, for example in preparations for surface coating, such as paints, lacquers, protective coatings and special coatings in electronic or in optical applications. At least one compound in the novel surfactant mixture is a fluorosurfactant.

Abstract: A device is provided for generating plasma by microwaves for CVD coating a substrate having a vacuum container into which a reaction gas can be fed and an electrical conductor arranged therein which is connected on each of both ends thereof to a device for coupling microwaves and to a voltage source with which a difference of potential can generated between the electrical conductor and the surrounding vacuum container. The electrical conductor is electrically insulated from the devices for coupling microwaves. The electrical conductor has a rod-shaped design or a curved run. The electrical conductor is connected to the voltage source via a feedthrough filter. The device for coupling microwaves expands in a funnel shape toward the electrical conductor and is partially or completely filled by a dielectric material. The device for coupling microwaves has groove-shaped recesses running along a circumference.

Abstract: The present invention relates to novel surfactant mixtures, to the use thereof as additives, for example in preparations for surface coating, such as paints, lacquers, protective coatings and special coatings electronic or in optical applications.

Abstract: A device is provided for generating plasma by microwaves for CVD coating a substrate having a vacuum container into which a reaction gas can be fed and an electrical conductor arranged therein which is connected on each of both ends thereof to a device for coupling microwaves and to a voltage source with which a difference of potential can generated between the electrical conductor and the surrounding vacuum container. The electrical conductor is electrically insulated from the devices for coupling microwaves. The electrical conductor has a rod-shaped design or a curved run. The electrical conductor is connected to the voltage source via a feedthrough filter. The device for coupling microwaves expands in a funnel shape toward the electrical conductor and is partially or completely filled by a dielectric material. The device for coupling microwaves has groove-shaped recesses running along a circumference.

Abstract: A method for stabilizing yarns made from polyacrylonitrile using chemical stabilization reactions, including: generating a field of high-frequency electromagnetic waves in an application space of an applicator, which has areas with minimum electric field strength and areas with maximum electric field strength, the maximum electric field strength in the application space being in a range from 3 to 150 kV/m; continuously supplying a precursor yarn based on a polyacrylonitrile polymer into the application space, and conveying the precursor yarn through the application space and through the field of the high-frequency electromagnetic waves; introducing a process gas into the application space and conveying the process gas through the application space with a flow rate of at least 0.1 m/s relative to the precursor yarn being conveyed through the application space, wherein a temperature of the process gas is in a range between 150 and 300° C.

Abstract: A process for the production of hollow carbon fibres by the treatment of a stabilised carbon fibre precursor in an application device using high-frequency electromagnetic waves. The application device includes structure supplying the electromagnetic waves to a outcoupling region and a hollow outer conductor terminating in the outcoupling region. For the treatment, a field of the high-frequency electromagnetic waves is generated and a field strength in the range from 15 to 40 kV/m is set in the outcoupling region of the application device. The stabilised carbon fibre precursor is conveyed continuously as an inner conductor through the hollow outer conductor, thereby forming a coaxial conductor having an outer and an inner conductor, and through the subsequent outcoupling region. An inert gas atmosphere is created in the coaxial conductor and in the outcoupling region by passing through an inert gas.

Abstract: A process for continuous production of carbon fibres whereby stabilised precursor fibres are carbonised and graphitised with the help of high-frequency electromagnetic waves, characterised in that the stabilised precursor fibres are continuously conveyed, as the inner conductor of a coaxial conductor consisting of an outer and an inner conductor, through the coaxial conductor and a treatment zone; that the stabilised precursor fibres are irradiated in the treatment zone with high-frequency electromagnetic waves that are absorbed by the precursor fibres, which are thereby heated and converted into carbon fibres; and that the stabilised precursor fibres or carbon fibres are conveyed under an inert gas atmosphere through the coaxial conductor and the treatment zone.

Abstract: The aim of the invention is to provide an alternative to the intensive treatment of a product, especially plasma treatment, in specific areas only. Towards this end, the invention provides a device for producing microwaves for treating workpieces, comprising at least one microwave antenna with an extended conductor for producing alternating electromagnetic fields, a housing that substantially extends over the length of the conductor, and an extended microwave decoupling area which follows the conductor and which is located in the housing. The housing is formed by at least one resonant cavity, which has a long shape and follows the course of the microwave antenna. The resonant cavity has at least one tapering, closed, first crown area and the decoupling area essentially extends in the focussing area of the resonant cavity. An at least non-divergent housing area adjoins the resonant cavity.

Abstract: Various implementations for solution searching are provided. One implementation provides for solution searching during a session with a user. The user creates a search request for one or more solutions. A data store provides one or more refinement criteria that are displayed to the user. The refinement criteria are associated with the search request. The user then selects one or more of the refinement criteria. In response, the data store provides one or more solutions that are displayed to the user, the solutions being associated with the search request and the selected refinement criteria. The user selects one or more of the solutions. The search request, the selected refinement criteria, and the selected solutions for the session are then stored in the data store.