Company Filing History:
Years Active: 1991
Title: Richard T Skelton: Innovator in Non-Invasive Inspection Technologies
Introduction
Richard T Skelton is a notable inventor based in Bristol, GB. He has made significant contributions to the field of non-invasive inspection technologies. His innovative approach has led to the development of a unique patent that enhances the detection of residual core materials in hollow cast articles.
Latest Patents
Richard T Skelton holds a patent for a method of non-invasive inspection that utilizes positron emission tomography (PET). This method allows for the detection of residual core material inside hollow cast articles. By immersing a cast article in an aqueous solution containing a radio-isotope emitter, such as gallium, the residual core material can be identified. The absorbed gallium emits positrons, which are annihilated in collisions with electrons, resulting in the emission of two 511 KeV gamma rays. These emissions are detected and tracked by a PET camera, producing images that can be correlated with sectioned images of the article to verify the location of the detected core material. The process begins with a low-dose-rate solution to establish the presence of core material, followed by an optional step that introduces a more active solution for detailed imaging.
Career Highlights
Richard T Skelton is associated with Rolls-Royce Corporation, where he applies his expertise in innovative inspection technologies. His work has contributed to advancements in the field, particularly in enhancing the safety and reliability of cast articles used in various applications.
Collaborations
Richard has collaborated with notable colleagues, including Peter A Stewart and Martin J Allen. Their combined efforts have furthered the development of innovative solutions in the field of non-invasive inspection.
Conclusion
Richard T Skelton's contributions to non-invasive inspection technologies exemplify the impact of innovation in engineering. His patent for detecting residual core materials showcases the potential of advanced imaging techniques in improving safety and efficiency in manufacturing processes.