To improve quality and reduce reject in the large-scale production of components of an electrical machine provided with coil windings, a welding method is provided for welding conductor ends organized into groups of conductor ends of a component for an electrical machine. The method includes detecting a relative position of a first conductor end and a second conductor end of a group of conductor ends, and controlling a welding energy input to the conductor ends to be welded depending on the detected relative position. A welding apparatus for performing the welding method is also provided.

A method of analyzing a welded connection during laser welding of workpieces includes acquiring a first measurement signal for a process radiation generated during laser welding, acquiring a second measurement signal for a laser radiation reflected by the workpieces, determining whether there is a gap between the workpieces based on the first measurement signal, and when it is determined that there is a gap, determining based on the second measurement signal whether there is a welded connection.

A press-forming device for forming individual solder bodies from a wire of soldering material includes a press-forming mechanism and a separation means. The press-forming mechanism forms a continuous strand of preformed solder sections from the wire by using two notched rollers that rotate in opposite directions and that press opposite notches into the wire. The preformed solder sections are disposed equidistantly along the strand and are connected to each other by connecting links disposed at the notches. The separation means forms individual solder bodies by separating the preformed solder sections one by one at the connecting links. The separation means separates individual preformed solder sections using a cutting mechanism that moves in a direction perpendicular to the length direction of the strand. Individual solder bodies are transported to a solder jetting section where they are liquefied by a laser beam and jetted from the solder jetting section by gas pressure.

A press-forming device for forming individual solder bodies from a wire of soldering material includes a press-forming mechanism and a separation means. The press-forming mechanism forms a continuous strand of preformed solder sections from the wire by using two notched rollers that rotate in opposite directions and that press opposite notches into the wire. The preformed solder sections are disposed equidistantly along the strand and are connected to each other by connecting links disposed at the notches. The separation means forms individual solder bodies by separating the preformed solder sections one by one at the connecting links. The separation means separates individual preformed solder sections using a cutting mechanism that moves in a direction perpendicular to the length direction of the strand. Individual solder bodies are transported to a solder jetting section where they are liquefied by a laser beam and jetted from the solder jetting section by gas pressure.

The present invention relates to a method for inspecting a welding quality of an electrode tab-electrode lead welded portion of a pouch-type lithium secondary battery, and the method includes: recognizing welding traces of the welded portion by a vision inspection device; measuring a size of each of the recognized welding traces; and determining whether the welded portion has been weakly welded, excessively welded or normally welded by comparing the measured size with a reference value.

A method for ascertaining and correcting the defective machine state and/or at least one defective component state of a machine tool includes ascertaining the state using imaging and analysis of a cut edge produced and comparing with selected machine parameters and making the correction by way of a maintenance instruction based on the machine state for maintaining the machine tool.

A processing system according to an embodiment includes a processing device. The processing device receives a detection result of a reflected wave from a detector that includes multiple detection elements arranged in a first direction and a second direction crossing each other, and performs a probe that includes transmitting an ultrasonic wave toward a welding object and detecting the reflected wave. The processing device performs a first determination of determining a joint and a non-joint at multiple points along the first and second directions of the welding object based on the detection result. The processing device performs a second determination of determining an appropriateness of a result of the first determination by using a circularness of a first region based on the points determined to be joints.

A ball-grid-array component of a ball-grid array assembly is analyzed prior to reflow. A predicted warping pattern of the ball-grid-array component that is likely to occur during reflow is predicted based on the analyzing. A solder ball ball-grid-array defect that could be caused by the predicted warping pattern is predicted. An initial via suction pattern to mitigate the ball-grid-array defect is assigned. A vacuum head is applied to a via in the ball-grid-array assembly. The solder ball is located at the opposite end of the via from the vacuum head. Suction is applied to the via based on the via suction pattern. The suction draws a portion of the solder ball into the via during reflow.

A method for producing a zinc or zinc-alloy coated steel sheet with a tensile strength higher than 900 MPa, for the fabrication of resistance spot welds containing in average not more than two Liquid Metal Embrittlement cracks per weld having a depth of 100 μm or more, with steps of providing a cold-rolled steel sheet, heating cold-rolled steel sheet up to a temperature T1 between 550° C. and Ac1+50° C. in a furnace zone with an atmosphere (A1) containing from 2 to 15% hydrogen by volume, so that the iron is not oxidized, then adding in the furnace atmosphere, water steam or oxygen with an injection flow rate Q higher than (0.07%/h×α), α being equal to 1 if said element is water steam or equal to 0.52 if said element is oxygen, at a temperature T≥T1, so to obtain an atmosphere (A2) with a dew point DP2 between −15° C. and the temperature Te of the iron/iron oxide equilibrium dew point, then heating the sheet from temperature T.sub.1 up to a temperature T.sub.2 between 720° C. and 1000° C. in a furnace zone under an atmosphere (A2) of nitrogen containing from 2 to 15% hydrogen and more than 0.1% CO by volume, with an oxygen partial pressure higher than 10.sup.−21 atm., wherein the duration t.sub.D of heating of the sheet from temperature T.sub.1 up to the end of soaking at temperature T.sub.2 is between 100 and 500 s., soaking the sheet at T.sub.2, then cooling the sheet at a rate between 10 and 400° C./s, then coating the sheet with zinc or zinc-alloy coating.

A method for process monitoring of a laser machining process for estimating a machining quality is dicloses. The method may include steps, which are carried out in real time during the machining process of providing at least one captured first signal sequence with a first feature form a machining zone, providing at least one captured second signal sequence with a second feature from the machining zone, and accessing a trained neural network with at least the recorded first and second signal sequences in order to calculate a result for estimating the machining quality.