The present disclosure relates to the field of display technologies, and discloses a display panel, a preparing method thereof, and a display device. The display panel has a bending area, and the display panel includes a sensing component; the sensing component includes a differential bridge connection circuit composed of a first strain sensor, a second strain sensor, a third strain sensor, and a fourth strain sensor; the first strain sensor, the second strain sensor, the third strain sensor, and the fourth strain sensor are resistance transducers, and are located in the bending area; the first strain sensor and the fourth strain sensor constitute first opposite bridge arms; the second strain sensor and the third strain sensor constitute second opposite bridge arms, and the first opposite bridge arms and the second opposite bridge arms are separately located on two sides of a neutral layer of the display panel.

A method and system for the characterization of equibiaxial compressive strength in 2D woven composites, such as carbon fiber reinforced laminate composites, is disclosed using induced biaxial flexure, the strain measurements from which are used to determine the equibiaxial compressive strength of the composite.

Disclosed is a device in the field of systems for measuring the weight of an object and in more detail concerns a load cell for metallic silos, or tanks and hoppers. The load cell for metallic silos includes: a bottom base plate for supporting it on a ground surface; a top plate for receiving and supporting a portion of a metallic silo to be weighed; a flexible element including at least one extensometer; and a spacer interposed between the bottom plate and the flexible element. Advantageously, the load cell includes a monobloc structure, substantially parallelepiped in shape, including the bottom plate, the top plate and the flexible element.

Hundreds of thousands of concrete bridges and hundreds of billions of tons of concrete require characterization with time for corrosion. Accordingly, protocols for rapid testing and improved field characterization systems that automatically triangulate electrical resistivity and half-cell corrosion potential measurements would be beneficial allowing discrete/periodic mapping of a structure to be performed as well as addressing testing for asphalt covered concrete. Further, it is the low frequency impedance of rebar in concrete that correlates to corrosion state but these are normally time consuming vulnerable to noise. Hence, it would be beneficial to provide a means of making low frequency electrical resistivity measurements rapidly. Further, prior art techniques for electrical rebar measurements require electrical connection be made to the rebar which increases measurement complexity/disruption/repair/cost even when no corrosion is identified. Beneficially a method of determining the state of a rebar without electrical contact is taught.

Sensing devices including sensors such as flexible and stretchable fabric-based pressure sensors, may be associated with or incorporated in garments, such as socks, intended to be worn against a body surface (directly or indirectly). Specific manifestations of a sensing system incorporated in a sock substrate are described in detail. Dedicated electronic devices interface electrically with sensors through intermediate conductive traces, optional conductive bridges, conductive contacts provided in a mounting tab.

A system for measuring a deformation of a structure configured to be installed on an aircraft includes deformation sensor means configured to be associated with the structure and to assume an electrical resistance value indicative of the deformation of the structure and having two short-circuited electrical connection terminals to recreate a closed circuit, magnetic field excitation means having a laser generator and configured to generate a magnetic field concatenated with the closed circuit to generate an induced current, electromagnetic radiation, transmission means having an antenna and configured to emit an electromagnetic radiation, value of the electromagnetic radiation being a function of the electrical resistance of the deformation sensor means, electromagnetic radiation receiving means having an antenna and configured to receive the electromagnetic radiation transmitted by the electromagnetic radiation transmission means, and control means for determining the deformation of the structure as a function of the value of electromagnetic radiation received.

A force sensor module includes multiple force sensors disposed in series. The force sensors each include multiple sensor sections, a support substrate, and an organic member. The multiple sensor sections have respective force detection directions different from each other. The support substrate is separately provided for each of the force sensors and supports the multiple sensor sections. The organic member is provided in common to the force sensors. The organic member fixes the multiple force sensors in series and has a groove at a location corresponding to a gap between two support substrates adjacent to each other. The organic member is flexible.

A touch sensor detector system and method incorporating an interpolated sensor array is disclosed. The system and method utilize a touch sensor array (TSA) configured to detect proximity/contact/pressure (PCP) via a variable impedance array (VIA) electrically coupling interlinked impedance columns (IIC) coupled to an array column driver (ACD), and interlinked impedance rows (IIR) coupled to an array row sensor (ARS). The ACD is configured to select the IIC based on a column switching register (CSR) and electrically drive the IIC using a column driving source (CDS). The VIA conveys current from the driven IIC to the IIC sensed by the ARS. The ARS selects the IIR within the TSA and electrically senses the IIR state based on a row switching register (RSR). Interpolation of ARS sensed current/voltage allows accurate detection of TSA PCP and/or spatial location.

A force sensor includes an array substrate having a first surface provided with a plurality of array electrodes, a node provided on the array substrate and supplied with constant potential, a sensor layer facing the first surface, and a plurality of bypass wires provided on the array substrate and coupling the respective array electrodes to the node. The resistance value of each bypass wire is larger than the resistance value of the sensor layer.

A force sensor includes an array substrate having a first surface provided with a plurality of array electrodes, a node provided on the array substrate and supplied with constant potential, a sensor layer facing the first surface, and a plurality of bypass wires provided on the array substrate and coupling the respective array electrodes to the node. The resistance value of each bypass wire is larger than the resistance value of the sensor layer.