A process arrangement for fabricating an electrode for a battery cell, in which a current collector film as a continuous web can be guided continuously through processing stations, namely while forming an electrode web that is disconnected and/or cut to size for the electrode at a final cutting station. The process arrangement has a measuring station with at least one measuring device in which the resistivity of an active material layer and/or the transfer resistance of the active material layer to the current collector film or a value correlating therewith can be measured.

A process for non-destructive testing includes applying a photo-curable dye to a surface of an article, selectively curing an array of dots of the photo-curable dye on the surface, removing the photo-curable dye that has not been selectively cured, mechanically testing the article, and direct strain imaging the article during the mechanical testing based on the array of dots.

Systems and methods for detecting an incorrectly attached heat sink component on an electronic device. The system includes one or more temperature sensors secured to the electronic device and a controller unit comprising one or more processors and one or more computer-readable media, the computer-readable media having stored thereon executable instructions that are executable by the one or more processors to perform a method for detecting incorrectly attached heat sink components. The method includes receiving temperature data, calculating a thermal ramp rate, comparing the thermal ramp rate to a predetermined threshold ramp rate, and transmitting a fault signal when the calculated thermal ramp rate exceeds the predetermined threshold ramp rate.

A method and program for printing a three-dimensional part with an additive manufacturing system, the method including generating or otherwise providing strain data from a digital model of the three-dimensional part, orienting the digital model to align the directions of high tensile strain in a build plane, and printing the three-dimensional part in a layer-by-layer manner based on the oriented digital model with the additive manufacturing system.

An advanced materials development system predicts stable material formulations and manufacturing processes in reduced-gravity or hyper-gravity environments. A non-contact suspension system may collect experimental data for multiple material samples in a modified-gravity environment. The non-contact suspension system may be equipped with a plurality of laser sources for heating a material sample and stabilizing elements for positioning and stabilizing the material sample in the modified-gravity environment. Data collected from the non-contact suspension system regarding a plurality of material samples may be analyzed and consolidated in a database system of the advanced materials development system. The impact of gravitational force may be determined for a material formulation so that stable material formulations and optimized manufacturing processes may be predicted by the advanced materials development system.

A method for predicting the electrical functionality of a semiconductor package, the method includes performing a first stiffness test for a first semiconductor package, receiving failure data for the first semiconductor package, the failure data includes results of an electrical test performed after the first semiconductor package is assembled on a printed circuit board, generating a database comprising results of the first stiffness test as a function of the failure data for the first semiconductor package, performing a second stiffness test for a second semiconductor package, identifying a unique result from the results of the first stiffness test in the database, the unique result aligns with a result of the second stiffness test, and predicting a failure data for the second semiconductor package based on the failure data for the first semiconductor package which corresponds to the unique result of the first stiffness test identified in the database.

A method and program for printing a three-dimensional part with an additive manufacturing system, the method including generating or otherwise providing strain data from a digital model of the three-dimensional part, orienting the digital model to align the directions of high tensile strain in a build plane, and printing the three-dimensional part in a layer-by-layer manner based on the oriented digital model with the additive manufacturing system.

An interferometric system is provided that includes detects, authenticates and quantifies analytes such as taggants. Methods of using such systems as part of an authentication and material tracking processes are also provided.

A measurement pigment composition including pigment particles may be coated on a surrounding area of a display panel to form a strain measuring part. A strain of the display device may be measured by using 3D images of the strain measuring part.

A method and program for printing a three-dimensional part with an additive manufacturing system, the method including generating or otherwise providing strain data from a digital model of the three-dimensional part, orienting the digital model to align the directions of high tensile strain in a build plane, and printing the three-dimensional part in a layer-by-layer manner based on the oriented digital model with the additive manufacturing system.