Company Filing History:
Years Active: 1987-1988
Title: Innovations of Herbert Diehl in Non-Destructive Testing
Introduction
Herbert Diehl is a notable inventor based in Erlensee, Germany. He has made significant contributions to the field of non-destructive testing, particularly in the evaluation of ferromagnetic bodies. With a total of two patents to his name, Diehl's work has advanced the methods used to detect structural faults in various materials.
Latest Patents
Diehl's latest patents include a device for the non-destructive testing of ferromagnetic bodies and a device with two generators for measuring the gradients of magnetic fields. The first invention provides a method for testing longitudinally displaceable ferromagnetic bodies for structural faults. This device utilizes a stationary magnetic field that is sent transversely across the test piece. Changes in this magnetic field, caused by structural defects, are detected by magnetic field detectors positioned around the test piece. The data collected requires processing to account for variations in magnetic field strength and detector sensitivity.
The second patent involves a device featuring two Hall generators designed to measure the gradients of magnetic leakage fields. These generators are strategically placed on a flat carrier substrate, aligned along a common line, and positioned near the edges of the substrate. This arrangement enhances the accuracy of non-destructive testing of materials.
Career Highlights
Herbert Diehl has established himself as a key figure in the field of non-destructive testing through his innovative inventions. His work at Nukem Limited has allowed him to apply his expertise in practical settings, contributing to advancements in testing technologies.
Collaborations
Diehl has collaborated with Gerhard Huschelrath, further enhancing the development of his inventions and expanding the impact of their work in the industry.
Conclusion
Herbert Diehl's contributions to non-destructive testing through his innovative patents demonstrate his commitment to advancing technology in this field. His work continues to influence the methods used for evaluating structural integrity in ferromagnetic materials.