Abstract: A method of manufacturing a plastic article having micro-openings defined therein by working a semi-finished plastic structure having microrecesses defined on one side thereof, the method including, in the order recited, providing a semi-finished plastic structure having opposing first and second sides, wherein the first side of the opposing sides has microrecesses defined therein; filling the semi-finished plastic structure to cover the microrecesses with a substance which is hardenable and selectively removable; hardening the substance; machining the surface of the hardened substance to smooth it; clamping the semi-finished plastic structure onto a vacuum tensioning device with the smoothed surface of the hardened substance in contact with the vacuum tensioning device; machining the second side of the opposing sides of the semi-finished plastic structure until the microrecesses of the first side are at least partially exposed thereby defining micro-openings in the structure; and removing the hardened substa

Abstract: The invention relates to a dual-beam spectrometer in which a measuring beam, after passage through a measuring cell, and a reference beam each travel through an entrance slit into a spectrometer. Both beams are spectrally separated by means of an optical grating. The spectrometer is intended to operate with a single photodiode array. According to the invention, the two entrance slits, the center of the grating and the measuring and reference spectra lie in one plane; both spectra are recorded on a single detector array, with the spectrum of the measuring beam of the +1 order directly following the spectrum of the reference beam of the -1 order.

Abstract: A method of producing a finely structured body which includes a plurality of stacked, cut sections of foil at least one of which is provided with grooves in a selected groove direction on at least one surface thereof, and which has a plurality of closely juxtaposed, channel-like perforations with high shape accuracy, true dimensions and high surface quality. The method includes: a. providing a vacuum clamping means comprised of a ground, sintered metal plate which is connected to a vacuum source and which is positioned on a work table which is movable in two mutually perpendicular directions X and Y; b. positioning a machinable foil on the ground, sintered metal plate and clamping the machinable foil thereto by applying an effective amount of vacuum; c.

Abstract: In an NMR magnet system for generating a highly homogeneous magnetic field of high field strength, with at least one superconducting magnet coil which is arranged in a first chamber of a cryostat in supercooled liquid helium at a temperature of less than 4.2K, with the cryostat having at least one further chamber containing liquid helium that is essentially at atmospheric pressure with a temperature of approximately 4.2K, the first chamber is connected to the further chamber in such a way that the supercooled liquid helium located in the first chamber is also essentially at atmospheric pressure. A refrigerator with which the liquid helium can be cooled to a temperature T<<4.2K, especially to T.apprxeq.1.8-2.3K, is provided in the first chamber.

Abstract: In the process described, the electronic circuits (2) for the signal processing and the sensor structures to which they are coupled are manufactured side by side on the common substrate (1). The process is characterized by the following steps: manufacture of the electronic circuits on the substrate (1) by known semiconductor techniques; application to the surface of the substrate (1) of a galvanic electrode layer (7), which may or may not be structured; application on the substrate surface containing the electrode layer of an X-ray resist layer (8), the thickness of which corresponds to a characteristic height of the sensor structures to be produced; production of negatives (10, 11) of the sensor structures in this resist layer (8) by X-ray lithography: galvanic deposition of a metal (12, 13) or a metal alloy in the negatives (10, 11) of the sensor structures using the galvanic electrode layer; division of the substrate with the sensor structures applied thereto into separate functional units or chips.

Abstract: A primarily crystalline, titanium-containing protective layer of hard material with homogeneous distribution of elements on the surfaces of a substrate material. The protective layer comprises a stabilized mixed phase having a crystal structure made of a metallic hard material which is at least one material selected from TiN and TiC and a covalent hard material which is at least one material selected from SiC and Si.sub.3 N.sub.4.

Abstract: An endoprosthesis for a femoral hip joint comprises a stem (1) with a collar (3) which bears against a resected bone surface and has a blocking cone (4) on which the ball head (5) is positioned. A screw (12) which grips the prosthesis as a tensioning stay passes through a lateral bore extending obliquely downward and outward through the femur. The prosthesis stem is designed to permit cementless fixation and to prevent crack formation in the femur due to rigidity of the stem, even under extreme loads. To this end, the prosthesis stem (1) is lodged in a mating fit in a medullary nail (7) driven into the medullary canal, and the distal region of the prosthesis stem (1) is elastic.

Abstract: In a band-pass filter for electromagnetic radiation comprising a membrane having periodically arranged slot structure elements formed therein each consisting of at least three slots of equal length extending from a common point in radial symmetry, the membrane with the slot elements has a thickness of 33 to 500 .mu.m and the ratio of the membrane thickness to the grating constant which defines the periodic arrangement of the slot structure elements is larger than 1, thereby achieving optimum blocking characteristics for the filter.

Abstract: The invention relates to a method of producing microstructured metallic bodies in which plastic negative molds of the microstructures are produced on an electrically conductive base plate by means of electron beam lithography, X-ray lithography or a micromolding technique. Cavities of the negative molds are filled with metal by electroplating while employing the electrically conductive base plate as an electrode. In the course of producing the negative molds, a residual plastic layer is left at the bottom of the cavities of the negative molds on the electrically conductive base plate. Also, before the cavities of the negative molds are filled with metal by electroplating, the residual plastic layer at the bottom of the cavities is removed by means of reactive ion etching with ions that are accelerated perpendicularly toward the surface of the base plate.

Abstract: A method for spectroscopically measuring a concentration of component gases in a gas mixture, wherein at least one component gas A has an absorption line spectrum and wherein the concentration of the gas A in the gas mixture exceeds the concentration of other component gases of the gas mixture to such an extent that measurement of the concentration of the other component gases would normally be interfered with by the gas A.

Abstract: A method of producing a finely structured body comprised of a plurality of stacked, cut sections of foil at least one of which is provided with grooves. A machinable foil is wrapped around a cylindrical mandrel of a lathe to overlap opposing edges. The overlapped edges are clamped into an axial recess of the cylindrical mandrel by means of a clamping means and a plurality of grooves cut into the surface of the foil by means of at least one shaping diamond positioned in a feed which is finely adjustable. The plurality of grooves each have a groove length, a groove width, and a cross-sectional shape that is constant over the groove length and is freely selectable. Then, the grooved machinable foil is cut into cut sectoins and the cut sections are stacked. The plurality of grooves have a form precision such that, for groove lengths of more than 1000 .mu.m, the groove width has an accuracy of about .+-.1 .mu.m for land widths which equal or exceed about 15 .mu.m.

Abstract: A switch matrix which comprises non-linear optical (e.g. bistable) elements each consisting of an optically active layer applied to a substrate. The surface of the substrate has a microstructure composed of pillars each of which functions as a switch element and has at least one optically active layer. The pillar structure prevents interaction due to thermal contact and diffusion of charge carriers across the optically active layer and the substrate. The lithographic-galvanic (LIGA) process described is suited to the mass production of these structured substrates my moulding plastics. Both transparent and opaque substrates with high aspect ratios and adequate stability can be advantageously manufactured in this way.

Abstract: A discharging device is provided at the bottom of a glass melting furnace. The device includes an inductively heated outlet unit including a compression flange having an inlet opening and an outlet pipe extending from the compression flange to form therewith a unit having a T-shaped cross section. The outlet pipe is penetrated by an outlet channel communicating with the inlet opening. The outlet pipe projects downwardly out of an opening in the furnace. An outlet block is seated on the compression flange and has an outlet channel flush with the inlet opening of the compression flange. An annular supporting flange supports the outlet unit from the bottom against the compression flange, with the annular supporting flange being supported by a bottom carrier plate of the furnace and the outlet pipe of the outlet unit projecting through an opening in the annular supporting flange.

Abstract: A process and apparatus for removing flue gas cleaning residues in a combustion system. The combustion system includes a combustion chamber; a hot gas filter located downstream from the combustion chamber; and washers located downstream from the hot gas filter which employ a washing liquid. The hot gas filter includes filter elements and an inlet chamber located below the filter elements. Contaminants present in flue gas are precipitated in the washing liquid. Then, the washing liquid is neutralized, thereby enriching the washing liquid with salts. Next, the enriched washing liquid is injected into the inlet chamber, whereby the washing liquid evaporates and the salts contained in the washing liquid are deposited on the filter elements where they can later be removed and mixed with ashes from the combustion chamber.

Abstract: A bottom outlet device is provided for a glass melting furnace, with heating of a glass melt being effected to within the temperature range of the electrical conductivity of the melt by way of electrodes disposed in the interior of the furnace and projecting into the melt. An inductively heatable and metallic outlet unit projects from the bottom of the furnace and includes an outlet opening and an interior outlet channel communicating with the outlet opening. An outlet block comprised of ceramic bricks is disposed above the outlet unit and includes a throughgoing channel which opens toward the interior of the furnace and which is flush with the interior outlet channel of the outlet unit. A bottom electrode comprised of metal is disposed at a lowermost portion of the interior of the furnace. The bottom electrode is penetrated by a further channel which is flush with the throughgoing channel in the outlet block and is thereby in communication with the outlet opening of the outlet unit.

Abstract: The plate-like valve elements (10 and 20) of the microvalve are provided with a plurality of valve seats and, respectively, corresponding valve members. The sealing surfaces of a secondary valve element (10) are respectively formed by molding to copy the sealing faces of a primary valve element (20) so that the sealing surfaces of both valve elements are completely complementary to each other. The sealing surfaces need no further processing such as machining. Despite liberal tolerances of manufacture a high precision register of the valve elements in relation to each other is ensured.

Abstract: A hydrogen/oxygen fuel cell includes an electrolyte which is solid at room temperature, has opposing faces, conducts protons, and is comprised of at least one of (a) at least one oxide of at least one element selected from the group consisting of Group IVB, VB, VIB, and VIII elements of the Periodic Table, (b) silicon dioxide, and (c) at least one fluoride of at least one element selected from the group consisting of Group IIA and IIIB elements of the Periodic Table. Also included are a hydrogen electrode which is applied to one face of the opposing faces of the electrolyte, is hydrogen permeable, and is negatively charged in use; and an oxygen electrode which is applied to another face of the opposing faces of the electrolyte, is hydrogen permeable, and is positively charged in use. A hydrogen-containing gas chamber is provided so as to be in communication with the hydrogen electrode; and an oxygen-containing gas chamber is provided so as to be in communication with the oxygen electrode.

Abstract: The invention relates to a sheathing material for superconducting wires which are deformed during manufacture by drawing or a similar procedure. The superconducting material of the wires is composed of an oxide whose superconducting properties worsen during the deformation so that, in order to recover its original superconducting properties or to further improve them, the material must be subjected to a recovery heat treatment at temperatures above 940.degree. C.Customarily, silver is employed as the sheathing material for such wires. The recovery heat treatment is generally performed at temperatures around 900.degree. C. Experiments have shown that the optimum temperature range for a recovery heat treatment lies between about 940.degree. C. and 1030.degree. C. However, these temperatures were above the melting temperature of silver in an oxygen atmosphere.

Abstract: A process for the rapid and effective removal of iodine, organic iodine compounds with a small number of carbon atoms or mixture thereof from gases and/or vapors, comprising passing said gas or vapor through an adsorbent bed containing a silver-lead-exchanged zeolite X.

Abstract: A method and an apparatus for determining the volumetric water content of a mineral and/or organic mixture with dielectric measurements. The apparatus includes a probe body having a hollow cylinder formed of an insulating material with an annular cutting edge at a lower end. Electrodes and a temperature sensor are carried by the probe body. A bottom plate may be disposed adjacent to the lower end of the cylinder so that the cylinder and the plate define a cavity for receiving a liquid coolant. A removable cover is provided for closing the cavity to prevent rain water from entering. The method includes introducing the probe in the mixture, charging the electrodes with a high frequency electromagnetic wave so as to generate an HF field in a region of the electrodes and reflect a wave from the electrodes, measuring a complex reflection factor of the reflected wave at a temperature T.sub.1 of the mixture, cooling the surrounding mixture to a temperature T.sub.