Company Filing History:
Years Active: 1992
Title: **Innovative Contributions of Donald L Dugger in the Field of Material Analysis**
Introduction
Donald L Dugger, based in Marlboro, MA, is a notable inventor recognized for his contributions to the analysis of insulating materials. With a patent to his name, Dugger's work reflects a significant advancement in the understanding and analysis of ceramics and oxides, particularly in the context of insulating materials.
Latest Patents
Dugger's key patent is titled "Technique for the analysis of insulating materials by glow discharge." This inventive technique focuses on sample preparation and analysis of ceramics and oxides. The method involves the combination of ceramic or oxide powder with a conducting powder, such as gallium, indium, or silver, alongside a small amount of a dopant. The dopant, comprising approximately 5-30% by weight, is selected from the group of thoria, yttria, or ytterbia. By incorporating this dopant, it is theorized that a source of electrons is provided, which stabilizes the plasma in the glow discharge mass spectrometer, allowing for impurity analysis in the part-per-million range.
Career Highlights
Throughout his career, Donald L Dugger has demonstrated a commitment to advancing material science and engineering. His affiliation with GTE Laboratories Incorporated highlights his involvement in research and development, contributing innovative solutions to the industry. His expertise in material analysis has positioned him as a key player in the field.
Collaborations
Dugger has worked alongside talented colleagues, including Gregory P Maklae and Daniel W Oblas. Their collaboration underscores the importance of teamwork in technological development, fostering an environment where innovative ideas can thrive and result in significant advancements in material analysis.
Conclusion
Donald L Dugger's contributions to the analysis of insulating materials exemplify the spirit of innovation. His patented technique not only enhances the ability to analyze ceramics and oxides but also opens new avenues for research and application in material science. As the field continues to evolve, the impact of Dugger's work will likely resonate for years to come, influencing future developments and inspiring new generations of inventors.