An X-ray inspection apparatus includes a holder for arranging a protective element in the X-ray inspection apparatus. The holder includes a plurality of receiving structures arranged one behind the other in a conveying direction, in order to be able to easily insert or remove the protective element at different positions along the conveying direction.

An X-ray inspection apparatus includes a holder for arranging a protective element in the X-ray inspection apparatus. The holder includes a plurality of receiving structures arranged one behind the other in a conveying direction, in order to be able to easily insert or remove the protective element at different positions along the conveying direction.

In an inspection device having a storage unit and an exposure dose calculation unit, the exposure dose calculation unit executes a first step for calculating the dose when an image is acquired by irradiating radiation from a radiation generator based on the reference dose stored in the storage unit, a second step for calculating the dose when the relative position between the radiation generator and an inspection object is changed, a third step for calculating the total value of the dose irradiated to the inspection object, and a fourth step for outputting the total value.

An X-ray radiation imaging system is for imaging a tubular object. The X-ray radiation imaging system may include an enclosure, a motorized base to be positioned within the enclosure and configured to rotate the tubular object, and a gantry within the enclosure. The X-ray radiation imaging system may further include an X-ray source coupled to the gantry and being adjacent the motorized base. The X-ray source may be configured to irradiate the tubular object with X-ray radiation while the motorized base rotates the tubular object. The X-ray radiation imaging system may also include an X-ray detector coupled to the gantry and being adjacent the tubular object, and the X-ray detector may receive the X-ray radiation from the tubular object. The X-ray radiation imaging system may include a processor coupled to the X-ray source and the X-ray detector and configured to generate an image of the tubular object.

An X-ray radiation imaging system is for imaging a tubular object. The X-ray radiation imaging system may include an enclosure, a motorized base to be positioned within the enclosure and configured to rotate the tubular object, and a gantry within the enclosure. The X-ray radiation imaging system may further include an X-ray source coupled to the gantry and being adjacent the motorized base. The X-ray source may be configured to irradiate the tubular object with X-ray radiation while the motorized base rotates the tubular object. The X-ray radiation imaging system may also include an X-ray detector coupled to the gantry and being adjacent the tubular object, and the X-ray detector may receive the X-ray radiation from the tubular object. The X-ray radiation imaging system may include a processor coupled to the X-ray source and the X-ray detector and configured to generate an image of the tubular object.

A scanner comprises an electromagnetic wave source; and a detector positioned to measure emissions from the electromagnetic wave source, wherein the electromagnetic wave source comprises a first technology, and the electromagnetic wave source is interchangeable with a second electromagnetic wave source comprising a second technology and/or wherein the detector comprises a first technology, and the detector is interchangeable with a second detector comprising a second technology. The scanner can comprise a storage medium having instructions stored thereon to perform a method for training the scanner for an inspection application, the method comprising operating the electromagnetic wave source to generate electromagnetic wave emissions at a plurality of combinations of parameters; moving a conveyor belt to expose product having a plurality of contaminants of different sizes to the emissions generated at more than one combination of parameters; recording attenuated emissions that pass through the product at more than one combination of parameters; and selecting a combination of parameters to use when inspecting for the contaminant.

A scanner comprises an electromagnetic wave source; and a detector positioned to measure emissions from the electromagnetic wave source, wherein the electromagnetic wave source comprises a first technology, and the electromagnetic wave source is interchangeable with a second electromagnetic wave source comprising a second technology and/or wherein the detector comprises a first technology, and the detector is interchangeable with a second detector comprising a second technology. The scanner can comprise a storage medium having instructions stored thereon to perform a method for training the scanner for an inspection application, the method comprising operating the electromagnetic wave source to generate electromagnetic wave emissions at a plurality of combinations of parameters; moving a conveyor belt to expose product having a plurality of contaminants of different sizes to the emissions generated at more than one combination of parameters; recording attenuated emissions that pass through the product at more than one combination of parameters; and selecting a combination of parameters to use when inspecting for the contaminant.

The present disclosure provides systems, apparatuses, and methods for measuring submerged surfaces. Embodiments include a measurement apparatus including a main frame, a source positioned outside a pipe and connected to the main frame, and a detector positioned outside the pipe at a location diametrically opposite the source and connected to the main frame. The source may transmit a first amount of radiation. The detector may receive a second amount of radiation, determine a composition of the pipe based on the first and second amounts of radiation, and send at least one measurement signal. A control canister positioned on the main frame or on a remotely operated vehicle (ROV) attached to the apparatus may receive the at least one measurement signal from the detector and convey the at least one measurement signal to software located topside.

The present disclosure provides systems, apparatuses, and methods for measuring submerged surfaces. Embodiments include a measurement apparatus including a main frame, a source positioned outside a pipe and connected to the main frame, and a detector positioned outside the pipe at a location diametrically opposite the source and connected to the main frame. The source may transmit a first amount of radiation. The detector may receive a second amount of radiation, determine a composition of the pipe based on the first and second amounts of radiation, and send at least one measurement signal. A control canister positioned on the main frame or on a remotely operated vehicle (ROV) attached to the apparatus may receive the at least one measurement signal from the detector and convey the at least one measurement signal to software located topside.

Provided is a tube weld X-ray inspection device for inspecting an abnormality, such as a tube welding part crack, of a heat exchanger by using X-rays.