A composite structure of a cargo body and a method of making the same are disclosed. The composite structure includes at least one electrical grid embedded within fiber-reinforced polymer (FRP) layers. The embedded electrical grid includes a plurality of conductive fibers and a plurality of insulating fibers integrated into a polymer matrix of the FRP layers. The embedded electrical grid may be used for power distribution, structural strengthening and stiffness, and/or puncture detection.

The inventive disclosures are directed to a factory-controlled process for making improved, risk-optimized commercial-building waterproofing systems. The improved waterproofing-panel systems also include improved intrinsic leak-detection capabilities.

Embodiments disclosed herein include system and methods for monitoring synthetic ropes for damage. One embodiment may include a synthetic rope with non-conductive fibers and conductive fibers. The conductive fibers may include a conductive core and a non-conductive sheath surrounding the conductive core. The conductive fibers may be grouped and terminated to form an electrical termination point. Additionally, an electronic reader may be configured to make contact with the electrical termination point to measure the electrical resistance of the synthetic rope.

Embodiments disclosed herein include system and methods for monitoring synthetic ropes for damage. One embodiment may include a synthetic rope with non-conductive fibers and conductive fibers. The conductive fibers may include a conductive core and a non-conductive sheath surrounding the conductive core. The conductive fibers may be grouped and terminated to form an electrical termination point. Additionally, an electronic reader may be configured to make contact with the electrical termination point to measure the electrical resistance of the synthetic rope.

A display is provided. The display device includes a display area and a non-display area located around the display area; a base layer; an organic light-emitting diode (OLED) that is located on the base layer in the display area; and a first crack detection line that is located on the base layer in the non-display area; wherein the first crack detection line comprises a first line that extends substantially in a first direction along a first edge of the display area, a second line that is separated from the first line and extends substantially in the first direction, and a third line that is connected to an end of the first line and an end of the second line, wherein a cross-sectional shape of the first line in a second direction crossing the first direction is inversely tapered.

A display is provided. The display device includes a display area and a non-display area located around the display area; a base layer; an organic light-emitting diode (OLED) that is located on the base layer in the display area; and a first crack detection line that is located on the base layer in the non-display area; wherein the first crack detection line comprises a first line that extends substantially in a first direction along a first edge of the display area, a second line that is separated from the first line and extends substantially in the first direction, and a third line that is connected to an end of the first line and an end of the second line, wherein a cross-sectional shape of the first line in a second direction crossing the first direction is inversely tapered.

A pressure vessel inspection device includes: a monitoring sensor including a filament provided on an outer surface of a pressure vessel, a coating layer applied onto an outer surface of the filament so as to have an electrical physical quantity, and electrodes connected to ends of the filament and exposed to outside; and a control unit configured to measure structural health of the pressure vessel based on the electrical physical quantity of the coating layer in accordance with deformation of the pressure vessel, in order to monitor structural health of the pressure vessel and simplify a structure and a manufacturing process.

A pressure vessel inspection device includes: a monitoring sensor including a filament provided on an outer surface of a pressure vessel, a coating layer applied onto an outer surface of the filament so as to have an electrical physical quantity, and electrodes connected to ends of the filament and exposed to outside; and a control unit configured to measure structural health of the pressure vessel based on the electrical physical quantity of the coating layer in accordance with deformation of the pressure vessel, in order to monitor structural health of the pressure vessel and simplify a structure and a manufacturing process.

A base plate and/or a sensor assembly part for an ostomy appliance is disclosed, the base plate and/or the sensor assembly part comprising a first adhesive layer with a proximal side configured for attachment of the base plate and/or the sensor assembly part to the skin surface of a user, the first adhesive layer having a stomal opening with a center point; and a plurality of electrodes including a ground electrode, a first electrode, and a second electrode, the ground electrode comprising a ground connection part, the first electrode comprising a first connection part, and the second electrode comprising a second connection part; wherein the ground electrode forms a ground for the first electrode and the second electrode.

A base plate and/or a sensor assembly part for an ostomy appliance is disclosed, the base plate and/or the sensor assembly part comprising a first adhesive layer with a proximal side configured for attachment of the base plate and/or the sensor assembly part to the skin surface of a user, the first adhesive layer having a stomal opening with a center point; and a plurality of electrodes including a ground electrode, a first electrode, and a second electrode, the ground electrode comprising a ground connection part, the first electrode comprising a first connection part, and the second electrode comprising a second connection part; wherein the ground electrode forms a ground for the first electrode and the second electrode.