Olympus announced the addition of a motorized steerable scanner to its line of solutions for ultrasonic and phased array testing. The field-tested, remote-controlled SteerROVER™ scanner is the most ad-vanced and versatile motorized scanner offered by Olympus.
Every day additively manufactured (AM) parts are being used in new applications as the industry rapidly matures. As additive parts become more economical for small productions runs and move beyond use solely in tooling and prototyping, the need to nondestructively inspect parts for quality increases as well.
Recently borescope manufacturers have been introducing high definition video borescopes to the market. It is important to understand the benefits of this new technology and what it will mean for your inspection program.
Traditional nondestructive inspections are performed much the same for additive parts, but there are some new limitations introduced by the AM methods.
Additive manufacturing (AM) is one of the hottest and most revolutionary processes to come along in many years. The thought of popping a design into a machine and having a functional part come out the other side was science fiction a generation ago. We are nowhere near the Star Trek replicators, but we are closing that gap.
Each day, facilities across the globe turn to nondestructive testing (NDT) to verify the reliability of parts or materials without causing damage. One of the most popular of these methods is magnetic particle inspection (MPI)—a form of NDT that uses magnetism to detect surface and near-surface defects, cracks, seams or stress points in ferromagnetic materials before parts and materials are placed into service.
A major milestone in Digital NDT was reached this February— the American Society for Testing and Materials (ASTM) E07.11 subcommittee published the new ASTM standard E3147-18 on DICONDE Interoperability. This new standard should help further establish DICONDE in Digital NDT environments and increase the benefits of its use.
On April 20, three days after a Southwest Airlines Boeing 737-700 experienced an engine failure due to a fractured fan blade, resulting in the death of a passenger, the U.S. Federal Aviation Administration issued an emergency airworthiness directive that requires operators of CFM56-7B engines with more than 30,000 flight cycles to perform a one-time ultrasonic inspection of all 24 fan blades to detect cracking.
Learn more about the entire 3D printing process from powder characterization to determining the best tests to qualify parts for the aerospace industry.
The aerospace industry is increasingly adopting metal additive manufacturing for both flight safety-critical aircraft parts and non-critical flight parts. The approach offers a shorter development cycle, which means products can be developed quicker and design changes easily incorporated.