Company Filing History:
Years Active: 1993
Title: Innovations of Ramesh Tailor: Advancements in Thermoluminescent Dosimetry
Introduction
Ramesh Tailor, an inventive mind located in Houston, TX, holds a significant patent in the field of thermoluminescent dosimetry. With one patent to his name, Tailor's work represents a vital advancement in measuring exposure to radiation through the use of innovative materials and methods.
Latest Patents
Tailor's patent, titled "High Temperature Thermoluminescent Dosimeter and Method of Making," focuses on a thermoluminescent dosimeter (TLD). The invention involves assembling a solid body of thermoluminescent material on a non-luminescent substrate. A non-luminescent liquid adhesive is interposed between the juxtaposed parallel surfaces of the TLD body and substrate. The assembly is then heated to cure the adhesive, ensuring a strong bond between the TL body and the substrate. This innovative bonding method, which utilizes a polyimide adhesive, is particularly effective for bonding to film substrates like aromatic polyimide films.
Career Highlights
Ramesh Tailor works at Solon Technologies, Inc., where his innovative approaches contribute to the company's advancements in dosimetry technology. His notable patent positions him as a key figure in the field, especially in high-temperature applications—a critical parameter for many research and industrial safeguards.
Collaborations
While working at Solon Technologies, Ramesh collaborates closely with colleagues Kenneth J. Velbeck and James D. Chamberlain. Together, they explore enhancements in technology that can lead to further innovations in radiation measurement and safety.
Conclusion
Ramesh Tailor's contributions through his patent have significantly impacted the field of thermoluminescent dosimetry. His innovative methods not only offer improvements in how dosimeters are constructed but also ensure more accurate radiation exposure measurements. As he continues his work in this field, the future holds promise for further developments that may enhance safety and efficiency across various applications.