Abstract: The invention relates to a method and a device for determining the parameters of a fluctuating flow of a fluid in a pipe, wherein at least three electrodes that are placed at a distance from one another in the direction of flow are provided in the periphery of the flow, wherein alternating voltage signals are fed to a first upstream transmission electrode arrangement and to a second downstream transmission electrode arrangement and the receiving signals generated by the displacement current are detected in a receiving electrode arrangement located between the transmission electrodes and subjected to a time-discrete cross-correlation. The throughput times of the fluctuations detected by the electrodes are determined on the basis of the results.

Abstract: A multichip circuit module includes a main board, at least one carrier substrate mounted on and in electrical contact with the main board, and at least one semiconductor chip arranged on the carrier substrate and in electrical contact therewith. The carrier substrate has at least one cavity on an assembly surface for receiving the semiconductor chip. The cavity includes connecting contacts which join with associated bumps on the semiconductor chip using a flip-chip technique. The assembly surface of the carrier substrate is placed on a contact surface of the main board, and a filling material is provided between the contract surface of the main board and the assembly surface of the carrier substrate.

Abstract: The invention relates to a driving agent vacuum pump used in microsystems technology, comprising an evaporator chamber and a pump chamber that are separated by a jet arrangement. The design of the driving agent vacuum pump is improved by: a planar arrangement of at least one jet, which extends vertically in depth and which is situated between two, in particular, parallel plates, these plates closing the evaporator chamber and the pump chamber; an opening in the pump chamber, preferably above the jet arrangement, for drawing in a medium to be pumped, and; an opening for expelling a preferably compressed gas underneath the jet arrangement.

Abstract: The invention relates to a method for producing a composite material, to a composite material produced according to said method and to the use of said material.

Abstract: In a device for conveying and positioning structural elements at a conveying track, a structural element is brought into pending state at the conveying track and the conveying track is tilted in conveying direction so that the structural element slides downwards to approach a target point. The position of the structural element is detected. The device further includes a control unit wherein the position of the structural element is detected within a predetermined range of the target point to be reached, and a time, at which the conveying track is tilted and re-tilted at a predetermined angular speed by a predetermined angle, is determined by using a calculation and control algorithm, so that the structural element is intercepted.

Abstract: The present invention relates to oligonucleotides directed against a survivin gene and variants thereof and to the use of said oligonucleotides in the diagnosis, prophylaxis, reduction and follow-up of diseases associated with cell growth, differentiation and/or division, such as tumor diseases.

Abstract: The present invention is directed to an implant for total hip joint replacement and a method for manufacturing such implant. In particular, the present invention relates to improved acetabular liners, total hip prosthetic assemblies comprising such liners and methods for manufacturing such liners.

Abstract: The invention relates to a liquid distribution unit (10, 20) for dividing a liquid current into a plurality of partial currents. Said unit comprises at least one liquid inlet (13, 23) for the supplied liquid current, a plurality of liquid outlets (14; 24) for the partial currents, and a plurality of channels (15, 25) connecting the liquid inlets (13, 23) to the liquid outlets (14, 24). Said unit is characterised in that the channels (15, 25) symmetrically and respectively branch off (16, 26) into upstream channels (15a, 15b, 15c, 15d, 15c; 25a, 25b, 25c, 25d, 25c) and each connection leading from the liquid inlet (13; 23 ) to one of the liquid outlets (14; 24) comprises the same channels (15, 25) and the same branches (16, 26). A liquid distribution device for the divided distributiion of at least two different liquids; comprises a plurality of such liquid distribution units (10, 20) placed flatly on top of each other.

Abstract: In a method for manufacturing internally and/or externally profiled rings from pipe material or solid material, machine-cutting processes and forming processes are combined with one another sequentially, parallel, or sequentially and parallel, wherein one of the forming processes is roll forming. During roll forming a counterforce is generated relative to a flow direction of the starting material so that a material flow in at least one of an axial direction and a radial direction of the starting material is controlled such that flowing material is integrated into a profile to be shaped on the ring.

Abstract: The invention relates a method for gas-shielded metal-arc welding during the re-strike during the welding process. It is object of the invention to provide a gas-shielded metal-arc welding method to permit as low an energy intake as possible in the short-circuit phase for the arc welding. According to the invention, this object is solved by a method, characterized in that at the beginning of a short-circuit, a control is activated and remains active for the duration of the short-circuit, which increases an energy intake (phase A) when a characteristic threshold value S1 is fallen short of, and terminates the energy intake when a threshold value S2 is reached, and than lowers the energy intake (phase B).

Abstract: A pressure-supercharged fluidized-bed gasification chamber has a pressure-tight lock for supplying the feed materials which are to be gasified. The fluidized-bed gasification chamber is connected to a filter chamber via a connecting channel, with the result that the gas produced can flow over from the fluidized-bed gasification chamber into the filter chamber, where it is directed through the filter layer. An external heat source provides the necessary heat for the allothermic gasification. A heat-pipe arrangement directs the heat from the external heat source into the gasification bed of the fluidized-bed gasification chamber, in order to provide the temperature which is necessary for the gasification.

Abstract: A method and a device for determining the velocity of a mass flow of powdered/granular bulk material in a conduit (1). Periodic disturbances are introduced into the mass flow that affect its electrical properties at at least one first point of the conduit (“point of disturbance”) (SST). Using an electrode mechanism (ME1 . . . ME6) an electrical current is produced by the mass flow at at least one second measuring point situated downstream of the point of disturbance (“measuring point”) (MST), and temporarily occurring changes of the current based on the disturbances introduced upstream are measured via an evaluation circuit (REV). The speed of the mass flow is determined from the time dependency between measured changes and introduced disturbance.

Abstract: A metallic object has a coating made of a thin metal oxide layer and nucleic acids or nucleic acid derivatives bonded thereto. The nucleic acid compounds have 5?-terminal or 3?-terminal molecule areas that are incorporated stably into the metal oxide layer. The unincorporated areas of the nucleic acid compounds that are not incorporated into the metal oxide layer are freely accessible for subsequent interactions with other molecules such as complementary nucleic acids having active ingredients attached thereto.

Abstract: An optical component for effecting frequency selective reflection in the gigahertz and terahertz frequency ranges and for effecting wave permeability includes at least one first layer (1, 3, 5) made of a first material (m1). The first material is optically permeable to electromagnetic radiation of a reference frequency (f) between 5 gigahertz (GHz) and 10 terahertz (THz) and has a first refractive index (n1) and an optical thickness of approximately one-fourth the wavelength (?) of the electromagnetic radiation of the reference frequency (f) in the first material (m1).

Abstract: A two-layered anode (1?) has a lower layer (2) including a non-conductive carrier material to which a conductive electrode layer (3?) is applied. Non-conductive areas, formed by partial removal of the electrode layer, have a predetermined structure corresponding to the structure of a structured polymer film (11) to be formed. The anode (1?) is connected with a platinum cathode in an electrolyte into which compounds of low molecular weight, preferably monomers of the polymer film (11), are introduced. During current flow, a conductive polymer film (11) of the predetermined structure is formed on conductive areas brought into contact with the electrolyte. A non-conductive substrate layer (13) is applied to the structured polymer film (11). The structured polymer film (11) adheres to the non-conductive substrate layer (13) and can be released from the electrode (1?) without damaging the electrode.

Abstract: Complex distributed systems with basic components (B) which have data processing program modules and/or electronic circuit modules that exchange data with each other have their timing behavior analyzed based on the timing behavior of individual basic components (B) and transformation functions derived from event model classes.

Abstract: The invention relates to an apparatus and a process for taking up particles, in particular particles of oil, algae or dirt, from a water surface (2). A hull structure (1) is moved over the water surface (2). In this case, a flow (6) of water laden with particles is produced in the region of a bottom surface (7) of the hull structure (1). The flow (6) is broken away or interrupted along a vortexing edge (13) in the region of the bottom hull-structure surface (7), with the result that a vortex flow (14) is produced for at least some of the particle-laden water. The vortex flow (14) passes into a vortex flow space (15). With the aid of localizing means, the vortex flow (14) is localized in a separation section (23) of the vortex flow space (15), with the result that particles of the particle-laden water which are picked up by the vortex flow (14) can be separated from the separation section (23).

Abstract: The invention is directed to methods for screening for a compound that affects interaction between a Toll-like receptor (TLR) and a ligand for the TLR. The methods involve direct measurement of interaction using, for example, surface plasmon resonance (SPR), particularly under conditions of pH that mimic those of the TLR in vivo. Compounds identified using the methods of the invention may be useful in the development of agents useful in the treatment of conditions characterized by undesirable immune activation, e.g., autoimmunity, inflammation, allergy, asthma, and transplantation.

Abstract: The invention relates to a structure assembled from elements, the elements forming an entity with topological interlocking.

Abstract: A scaffold for tissue culture and cell culture and for producing implant materials, in particular bone, cartilage or skin replacements or extra-corporal organ replacements or for other applications in medicine or biotechnology is made of biocompatible materials. It has at least one base material which is electrostatically flocked with fibers on at least one side. Through the electrostatic flocking the fibers are arranged almost perpendicularly on the surface of the base material and exhibits a high fiber pull-out resistance. The scaffold provides an elastic growth lattice, which is stable against compression, for cell colonization in vitro or the ingrowth of cells in vivo. Implants or implant materials can be produced with the scaffold.