Systems and methods are provided for implementing and utilizing magnetic inspection machines with true gauss magnetic measurements.

Systems and methods are provided for vision system assisted inspections. An non-destructive testing (NDT) based setup may be configured for supporting use of visual scanner, which obtain visual scan of articles during NDT inspections. Scanning data corresponding to the visual scan may be processed, based on the processing, inspection indications may be identified, with each inspection indication corresponds to a possible defect in the article.

A magnetic particle inspection device includes an image acquisition unit configured to acquire an image obtained by attaching magnetic particles to a magnetized inspection object and capturing the image of the inspection object, and a binarized image obtained by binarizing a whole or a part of the image; a region specifying unit configured to specify a magnetic particle group region based on at least one of the image and the binarized image, the magnetic particle group region containing a magnetic particle group; and a detection unit configured to detect a flaw by processing luminance information and form information with artificial intelligence obtained by supervised learning, the luminance information being obtained by performing statistical processing on luminances of a plurality of minute regions in the specified magnetic particle group region, and the form information being information regarding a form of the magnetic particle group that is obtained from the binarized image.

A non-destructive inspection method of inspecting an inspection target using multiple different types of non-destructive inspection means that include one non-destructive inspection means and at least one other non-destructive inspection means. The method includes determining a marking position on the inspection target in a detection result by the one non-destructive inspection means, causing a device to store the marking position, and fixedly forming a mark on the inspection target corresponding to the marking position. The mark is detectable by the other non-destructive inspection means. The method further includes causing the other non-destructive inspection means to inspect an inspection target including the mark. The method further includes contrasting detection results by the multiple different types of non-destructive inspection means in reference to the mark which is the marking position.

Testing apparatus and handles for testing apparatus are disclosed. An example testing apparatus includes: a first housing portion including a first compartment portion and a trigger compartment; a second housing portion including a second compartment portion that is complementary to the first compartment portion, wherein the first compartment portion and the second compartment portion form a yoke compartment when the first housing portion and the second housing portion are attached; a removable seal positioned around a perimeter of at least one of the first compartment portion or the second compartment portion, wherein the removable seal is configured to be compressed between the first housing portion and the second housing portion to seal the yoke compartment; and a trigger cover complementary to the trigger compartment of the first housing portion, wherein the trigger cover and the second housing portion are removably attached to the first housing portion.

Testing apparatus and handles for testing apparatus are disclosed. An example testing apparatus includes: a first housing portion including a first compartment portion and a trigger compartment; a second housing portion including a second compartment portion that is complementary to the first compartment portion, wherein the first compartment portion and the second compartment portion form a yoke compartment when the first housing portion and the second housing portion are attached; a removable seal positioned around a perimeter of at least one of the first compartment portion or the second compartment portion, wherein the removable seal is configured to be compressed between the first housing portion and the second housing portion to seal the yoke compartment; and a trigger cover complementary to the trigger compartment of the first housing portion, wherein the trigger cover and the second housing portion are removably attached to the first housing portion.

Systems and methods are provided for implementing and utilizing lighting attachments for use in conjunction with handheld magnetization equipment during non-destructive testing (NDT). The lighting attachments may incorporate snap-fit based designed, and may be configured for providing lighting based on the magnetization function of the magnetization equipment.

Systems and methods to use customized quality control tasks for non-destructive testing (NDT) are disclosed. An example NDT system includes at least one of a magnetic particle inspection device or a penetrant testing device, a user interface device, a processor, and a memory coupled to the processor and storing machine readable instructions. When executed, the instructions cause the processor to: access a quality verification procedure comprising a plurality of tasks and corresponding task definitions; display one or more of the plurality of tasks based on statuses of the plurality of tasks; receive one or more results associated with the one or more of the plurality of tasks; store the one or more results in association with the magnetic particle inspection device or the penetrant testing device; and control at least one aspect of the magnetic particle inspection device or the penetrant testing device based on the one or more results.

Systems and methods to use customized quality control tasks for non-destructive testing (NDT) are disclosed. An example NDT system includes at least one of a magnetic particle inspection device or a penetrant testing device, a user interface device, a processor, and a memory coupled to the processor and storing machine readable instructions. When executed, the instructions cause the processor to: access a quality verification procedure comprising a plurality of tasks and corresponding task definitions; display one or more of the plurality of tasks based on statuses of the plurality of tasks; receive one or more results associated with the one or more of the plurality of tasks; store the one or more results in association with the magnetic particle inspection device or the penetrant testing device; and control at least one aspect of the magnetic particle inspection device or the penetrant testing device based on the one or more results.

Systems and methods are provided for vision system assisted inspections. An non-destructive testing (NDT) based setup may be configured for supporting use of visual scanner, which obtain visual scan of articles during NDT inspections. Scanning data corresponding to the visual scan may be processed, based on the processing, inspection indications may be identified, with each inspection indication corresponds to a possible defect in the article.