A method can include identifying an inspected object with an inspection device; viewing the inspected object through an augmented reality device to identify points; and measuring a thickness of a layer at the inspection points. In response to detecting a region of interest on the surface of the inspected object, an image of the region of interest can be taken. By operation of communication circuits, at least the thickness measurements and images can be transmitted to a server system. A value of the inspected object can be adjusted based on at least the thickness measurements and images from the at least one inspection device. Corresponding devices and systems are also disclosed.

The present disclosure relates to a method for calibrating a stationary THz measuring device which measures geometric properties of a profile by means of one or more THz sensors during an extrusion of the profile, comprising at least one or more steps.

A quality control system analyzes the quality of a battery cell, with the battery cell defining a gas pouch configured to expand from a deflated configuration to an inflated configuration when filled with a gas formed during a cell formation process. The system comprises a computational system comprising a processor and a memory and a measurement instrument in electronic communication with the computational system. The measurement instrument is arranged to measure a distance defined by the gas pouch and transmit a signal to the computational system corresponding to the distance. The computational system is arranged to analyze the distance with the processor and determine a volumetric measurement of the gas within the gas pouch and compare the volumetric measurement to a threshold in the memory to assess a quality score for the battery cell. A corresponding method analyzes the quality of the battery cell with the quality control system.

A quality control system analyzes the quality of a battery cell, with the battery cell defining a gas pouch configured to expand from a deflated configuration to an inflated configuration when filled with a gas formed during a cell formation process. The system comprises a computational system comprising a processor and a memory and a measurement instrument in electronic communication with the computational system. The measurement instrument is arranged to measure a distance defined by the gas pouch and transmit a signal to the computational system corresponding to the distance. The computational system is arranged to analyze the distance with the processor and determine a volumetric measurement of the gas within the gas pouch and compare the volumetric measurement to a threshold in the memory to assess a quality score for the battery cell. A corresponding method analyzes the quality of the battery cell with the quality control system.

A method for predetermining a thickness of a coating which is to be arranged on a substrate is provided. A spray spot is arranged on a surface of the substrate or a test substrate. The volume of the spray spot is determined, and based on the determined volume, the thickness of a layer which is to be applied is worked out. An arrangement for predetermining the thickness of a coating is further provided.

The present invention provides an apparatus for measuring thickness of thin materials used for batteries such as an electrode and a separator, the apparatus including an inductive sensor for measuring a length displacement, wherein the sensor comprises a sensor tip having a spherical surface that is retracted by vacuum; a bottom tip disposed on an opposite side of the sensor tip with respect to a sample to support the sample and having a spherical surface; a decompression unit includes a pump to apply a reduced pressure to retract the sensor tip, a motor, a power source, and a control unit; a body including a top surface on which the sample is placed, at a center of which the bottom tip is disposed; and a fixing unit disposed on the body, wherein the sensor is fixed to the fixing unit.

The present invention provides an apparatus for measuring thickness of thin materials used for batteries such as an electrode and a separator, the apparatus including an inductive sensor for measuring a length displacement, wherein the sensor comprises a sensor tip having a spherical surface that is retracted by vacuum; a bottom tip disposed on an opposite side of the sensor tip with respect to a sample to support the sample and having a spherical surface; a decompression unit includes a pump to apply a reduced pressure to retract the sensor tip, a motor, a power source, and a control unit; a body including a top surface on which the sample is placed, at a center of which the bottom tip is disposed; and a fixing unit disposed on the body, wherein the sensor is fixed to the fixing unit.

An illustrative example embodiment of an elevator sheave liner includes a liner body having a first surface configured to engage an elevator load bearing member and an oppositely facing second surface. The liner body includes a plurality of blind holes in the second surface including at least a first blind hole and a second blind hole. The first blind hole has a first depth and the second blind hole has a second, different depth. A material of the liner body has a first thickness between the first blind hole and the first surface and a second, different thickness between the second blind hole and the first surface.

An illustrative example embodiment of an elevator sheave liner includes a liner body having a first surface configured to engage an elevator load bearing member and an oppositely facing second surface. The liner body includes a plurality of blind holes in the second surface including at least a first blind hole and a second blind hole. The first blind hole has a first depth and the second blind hole has a second, different depth. A material of the liner body has a first thickness between the first blind hole and the first surface and a second, different thickness between the second blind hole and the first surface.

Disclosed herein is a gauge for slurry coating thickness determination. The gauge includes a body and at least three probes extending from the body. The at least three probes provide a go-no-go indicator including a first demarcation that defines a minimum slurry coating thickness and a second demarcation that defines a maximum slurry coating thickness. A minimum no-go region is defined between the first demarcation and a probe tip, a maximum no-go region is defined between the second demarcation and the body, and a go region is defined between the first demarcation and the second demarcation.