Company Filing History:
Years Active: 1985
Title: Innovations by Wilfried Lein in Non-Destructive Testing
Introduction
Wilfried Lein is a notable inventor based in Hanau, Germany. He has made significant contributions to the field of non-destructive testing, particularly in the evaluation of ferromagnetic bodies. His innovative approach has led to the development of a unique testing arrangement that enhances the detection of structural irregularities.
Latest Patents
Wilfried Lein holds a patent for a "Testing arrangement for ferromagnetic bodies including magnetic field." This apparatus is designed to non-destructively test ferromagnetic bodies to identify structural irregularities through magnetization. The system incorporates detectors for magnetic fields that are strategically placed close to the surface of the body. These detectors can identify changes in the magnetic field behavior caused by structural irregularities. The design features at least two stationary magnetic fields that can be displaced along the longitudinal direction of the body, with their center axes inclined towards each other at a specific angle. This angle is determined by the number of magnetic fields used in the arrangement.
Career Highlights
Wilfried Lein has dedicated his career to advancing the technology of non-destructive testing. His work at Nukem Limited has allowed him to apply his innovative ideas in practical settings. His patent reflects his commitment to improving safety and reliability in the evaluation of ferromagnetic materials.
Collaborations
Wilfried Lein has collaborated with Gerhard Huschelrath, contributing to the development and refinement of testing technologies. Their partnership has fostered advancements in the field, enhancing the capabilities of non-destructive testing methods.
Conclusion
Wilfried Lein's contributions to non-destructive testing through his innovative patent demonstrate his expertise and commitment to the field. His work continues to influence the industry, providing valuable tools for the evaluation of ferromagnetic bodies.