Abstract: The present disclosure relates to a process for producing matt coatings on sheetlike substrates. The method includes providing an uncured lacquer layer of a UV radiation-curable liquid lacquer formulation F on a surface of the substrate to be coated. The method also includes irradiating the lacquer layer with UV radiation substantially in the wavelength range of 250 to 420 nm with a radiation dose which results in partial curing of the lacquer layer. The method further includes irradiating the partially cured lacquer layer with UV radiation in the wavelength range of 150 to <250 nm under inert gas. The method further includes irradiating the partially cured lacquer layer with UV radiation substantially in the wavelength range of 250 to 420 nm or with electron radiation with a radiation dose which results in end-curing of the lacquer layer.

Abstract: A computer-implemented method for providing a distributed data processing service for performing a secure multiparty computation of a function on at least first and second items of private input data using at least a first and a second computing engine communicatively coupled via a communication network.

Abstract: Press-in machine for pressing electrical, electronic, mechanical and/or electromechanical components into a substrate, in particular into a circuit board or carrier board, including a lower tool, which for pressing-is in contact against the underside of the substrate, an upper tool, which with an upper pressing unit for pressing-in the component can be moved against the component along the z-axis toward the substrate, and a changing unit for automatically changing the lower or upper tool. The changing unit includes a magazine in which a plurality of tools can be deposited, one or more tool-holders, a tool being provided in or on each of the tool-holders, a displacement unit with which the respective tool holder can be moved along a displacement direction out of the magazine and into a pressing receptacle of a pressing unit, and a locking device, with which the respective tool-holder can be locked in the pressing receptacle.

Abstract: A press-in machine for pressing electrical, electronic, mechanical and/or electromechanical components into a substrate, in particular into a printed circuit board or carrier plate, and method therefor, including a moving unit, which comprises a receptacle for a substrate and with which the substrate can be moved in a plane, which is spanned by an x-axis and a y-axis and can be placed in a press-in position in which one or more components are pressed into the substrate, a lower tool, which comes to rest against the underside of the substrate before or during the press-in, an upper tool, which can be moved against the component for pressing the component along the z axis toward the substrate, a control unit for controlling the moving unit, and a sensor for detecting at least one reference mark present on the substrate, wherein the control unit is configured and designed such that it controls the moving unit depending on the detected reference mark in such a way that the substrate is placed between the lower to

Abstract: Soot removal process at or inside a synthesis gas- and/or CO-containing gas production apparatus using as feed gases carbon dioxide, steam, hydrogen and/or a hydrocarbon-containing residual gas and using electrical energy in RWGS processes, electrolyses for electrochemical decomposition of carbon dioxide and/or steam, reforming operations and/or synthesis gas production processes with at least one gas production unit, an electrolysis stack and/or a heater-reactor combination for performing an RWGS reaction and at least one cooling sector/recuperator for CO-containing gas and/or synthesis gas, and also a soot removal assembly. Formation of soot can be suppressed or prevented during gas cooling and soot that is nevertheless deposited can be removed again from the heat exchanger surface.

Abstract: A method of manufacturing a gas heater heating element including a support and channel structure with a plurality of channels formed in the monolith includes shaping an electric heating element and at least partially coating the electric heating element with at least one coating material. The at least partially coated electric heating element is positioned in a mold for producing the monolith. The monolith is produced and surrounds the at least partially coated electric heating element. The coating material of the at least partially coated electric heating element is removed. The gas heater heating element includes at least one electric heating element in the monolith and the electric heating element is guided in the plurality of channels of the support. Heat within the plurality of channels is configured to be transferred by the electric heating element to a gas flowing through the plurality of channels to heat the gas.

Abstract: Operational planning of energy storage systems using batteries, e.g., Lithium-Ion batteries, is disclosed. A method of operating at least one server node includes: obtaining one or more load profiles associated with one or more interfacing modes of a battery energy storage system with an electrical utility distribution system, and predicting one or more degradations of the battery energy storage system, the one or more degradations being associated with operating the battery energy storage system in the one or more interfacing modes, the one or more degradations being predicted using an aging model of batteries of the battery energy storage system, the aging model being based on the one or more load profiles.

Abstract: A computer-implemented method for providing a distributed data processing service for performing a secure multiparty computation of a function on at least first and second items of private input data using at least a first and a second computing engine communicatively coupled via a communication network.

Abstract: A method for implementing a secure multiparty computation protocol between a plurality of parties for a multiparty computation includes performing an offline phase of an SPDZ protocol for each of the parties participating in the multiparty computation. A secret share redistribution phase is then performed wherein the secret shares of the parties are redistributed to a subset of the parties. A secret share recombination phase is performed during which the subset of the parties recombines the redistributed secret shares to recover the secret shares of the parties not in the subset. An online phase of the SPDZ protocol is then performed during which the function is computed with respect to the private inputs of the parties and using the secret shares of all the parties.

Abstract: Soot removal process at or inside a synthesis gas- and/or CO-containing gas production apparatus using as feed gases carbon dioxide, steam, hydrogen and/or a hydrocarbon-containing residual gas and using electrical energy in RWGS processes, electrolyses for electrochemical decomposition of carbon dioxide and/or steam, reforming operations and/or synthesis gas production processes with at least one gas production unit, an electrolysis stack and/or a heater-reactor combination for performing an RWGS reaction and at least one cooling sector/recuperator for CO-containing gas and/or synthesis gas, and also a soot removal assembly. Formation of soot can be suppressed or prevented during gas cooling and soot that is nevertheless deposited can be removed again from the heat exchanger surface.

Abstract: A method for implementing a secure multiparty computation protocol between a plurality of parties for a multiparty computation includes performing an offline phase of an SPDZ protocol for each of the parties participating in the multiparty computation. A secret share redistribution phase is then performed wherein the secret shares of the parties are redistributed to a subset of the parties. A secret share recombination phase is performed during which the subset of the parties recombines the redistributed secret shares to recover the secret shares of the parties not in the subset. An online phase of the SPDZ protocol is then performed during which the function is computed with respect to the private inputs of the parties and using the secret shares of all the parties.

Abstract: A test system having a manipulation device and a test unit. The manipulation device has a receiving unit with a socket that accommodates a packaged integrated circuit, which has a top side and a bottom side. A plurality of electrical terminal contacts are formed on the bottom side. In a first state, the manipulation device provides the integrated circuit to the test unit, and during the first state the test unit is disposed above the top side of the integrated circuit and forms a connection with the manipulation device, and the test unit carries out a function test on the integrated circuit. A sensor device is formed on the top side, and the top side of the integrated circuit is oriented in a direction of the test unit and the electrical terminal contacts are electrically connected to the receiving unit of the manipulation device.

Abstract: A test system having a manipulation device and a test unit. The manipulation device has a receiving unit with a socket that accommodates a packaged integrated circuit, which has a top side and a bottom side. A plurality of electrical terminal contacts are formed on the bottom side. In a first state, the manipulation device provides the integrated circuit to the test unit, and during the first state the test unit is disposed above the top side of the integrated circuit and forms a connection with the manipulation device, and the test unit carries out a function test on the integrated circuit. A sensor device is formed on the top side, and the top side of the integrated circuit is oriented in a direction of the test unit and the electrical terminal contacts are electrically connected to the receiving unit of the manipulation device.