An inspection and measurement device includes a body defining a first planar face within a first bounded area, a first reference feature disposed on the first planar face within the first bounded area and corresponding with a first measurable parameter, and at least a second reference feature disposed on the first planar face within the first bounded area and corresponding with a second measurable parameter. The first and second reference features are positioned within the first bounded area for placement adjacent an element bearing the respective one of the first and second measurable parameters. The first and second reference features overlap within the first bounded area in at least one direction.

An inspection and measurement device includes a body defining a first planar face within a first bounded area, a first reference feature disposed on the first planar face within the first bounded area and corresponding with a first measurable parameter, and at least a second reference feature disposed on the first planar face within the first bounded area and corresponding with a second measurable parameter. The first and second reference features are positioned within the first bounded area for placement adjacent an element bearing the respective one of the first and second measurable parameters. The first and second reference features overlap within the first bounded area in at least one direction.

A method for measuring an r-value of a tube in a circumferential direction: determine a size of an annular sample, and cutting the sample from a to-be-measured tube; making speckles or circular grids on an outer surface of the sample; sleeving the annular sample in a middle of an outside of a ring segmented rigid die; filling a liquid bag with a fluid medium and controlling an internal pressure, and driving the ring segmented rigid die to move outward uniformly in a radial direction using a uniformly distributed load generated by pressurizing the liquid bag, so as to cause equal diameter bulging of the annular sample; measuring strain in width and circumferential directions in a speckle or circular grid region on the annular sample; and determining the plastic strain ratio of the tube in the circumferential direction according to the strain in the width and circumferential directions.

A method for measuring an r-value of a tube in a circumferential direction: determine a size of an annular sample, and cutting the sample from a to-be-measured tube; making speckles or circular grids on an outer surface of the sample; sleeving the annular sample in a middle of an outside of a ring segmented rigid die; filling a liquid bag with a fluid medium and controlling an internal pressure, and driving the ring segmented rigid die to move outward uniformly in a radial direction using a uniformly distributed load generated by pressurizing the liquid bag, so as to cause equal diameter bulging of the annular sample; measuring strain in width and circumferential directions in a speckle or circular grid region on the annular sample; and determining the plastic strain ratio of the tube in the circumferential direction according to the strain in the width and circumferential directions.

Methods and devices for checking the geometry of an angle-of-attack sensor belonging to an aircraft are provided. The device includes one or more stages, a stage comprising a slot the geometric dimensions of which are specifically configured to accept a portion of the said angle-of-attack sensor. The device allows a visual inspection but can also be instrumented (photoelectric cell, laser, camera) in order to verify the geometry of the sensor in detail. Developments notably describe the use of signal indicators, motorized stages, one or more image sensors, specific materials, communications with computers, or placement by drone and/or robotic arm. Software aspects are described.

A system and method for measuring an inside diameter of a pipe to determine if it exceeds a predetermined value using a plurality of fingers operatively connected to a spring. When in a fully extended position, the distance between opposite fingers is the predetermined value. The fingers are pivotable between a starting position, through the fully extended position, and to a failing position. In the starting position, an outer end of each finger engages an inside surface of the pipe to compress the spring. If the diameter exceeds the predetermined value as the system moves through the pipe, the pipe inside surface will no longer engage the fingers, which releases the spring causing the fingers to pivot to the failing position, where they remain until the system is removed from the pipe and manually reset.

A system and method for measuring an inside diameter of a pipe to determine if it exceeds a predetermined value using a plurality of fingers operatively connected to a spring. When in a fully extended position, the distance between opposite fingers is the predetermined value. The fingers are pivotable between a starting position, through the fully extended position, and to a failing position. In the starting position, an outer end of each finger engages an inside surface of the pipe to compress the spring. If the diameter exceeds the predetermined value as the system moves through the pipe, the pipe inside surface will no longer engage the fingers, which releases the spring causing the fingers to pivot to the failing position, where they remain until the system is removed from the pipe and manually reset.

Various embodiments illustrated herein disclose a sprocket wear gauge. The sprocket wear gauge comprises a first plate having a first opening of a first diameter and a second plate having a second opening of a second diameter. The first plate is mounted on one end of adjacent sprocket teeth of a plurality of sprocket teeth of a sprocket wheel. The second plate is mounted on an opposite end of the adjacent sprocket teeth of a plurality of sprocket teeth of a sprocket wheel. The first plate and the second plate are attached to each other using screws. A cylindrical pin is placed between the adjacent sprocket teeth and is configured to pass through at least one of the first opening of the first plate and the second opening of the second plate.

Various embodiments illustrated herein disclose a sprocket wear gauge. The sprocket wear gauge comprises a first plate having a first opening of a first diameter and a second plate having a second opening of a second diameter. The first plate is mounted on one end of adjacent sprocket teeth of a plurality of sprocket teeth of a sprocket wheel. The second plate is mounted on an opposite end of the adjacent sprocket teeth of a plurality of sprocket teeth of a sprocket wheel. The first plate and the second plate are attached to each other using screws. A cylindrical pin is placed between the adjacent sprocket teeth and is configured to pass through at least one of the first opening of the first plate and the second opening of the second plate.

An inspection and measurement device includes a body defining a first planar face within a first bounded area, a first reference feature disposed on the first planar face within the first bounded area and corresponding with a first measurable parameter for structural inspection, and a second reference feature disposed on the first planar face within the first bounded area and corresponding with a second measurable parameter for structural inspection. The first and second reference features are positioned within the first bounded area for placement adjacent an element bearing the respective one of the first and second measurable parameters, and the first and second reference features overlap within the first bounded area in at least one direction.