Thomas Kenneth Bednarz

Title: Thomas Kenneth Bednarz: Innovator in Electrostatic Methods

Introduction

Thomas Kenneth Bednarz is a notable inventor based in Richmond, VA (US). He has made significant contributions to the field of electrostatic methods and apparatus, holding a total of 6 patents. His work focuses on innovative techniques for mounting and demounting particles from surfaces with varying properties.

Latest Patents

One of his latest patents involves electrostatic methods and apparatus for mounting and demounting particles from a surface that features an array of tacky and non-tacky areas. This invention outlines methods and associated apparatus for effectively mounting particles on and de-mounting them from a substrate. The particles can be either electrically conducting or non-conducting, with a preference for electrically conducting particles. The substrate can be either electrically non-conducting, such as a dielectric substrate, or electrically conducting. The methods utilize first and second electrode plates with the substrate positioned between them, applying a direct current potential that is reversed in polarity for a specified number of cycles. Additionally, the invention includes methods and articles that use an electrically conductive surface adjacent to the tacky and non-tacky areas to minimize static buildup.

Career Highlights

Throughout his career, Thomas Kenneth Bednarz has worked with prominent organizations, including E.I. DuPont de Nemours and Company and the University of California. His experience in these institutions has contributed to his expertise in the field of electrostatics and particle manipulation.

Collaborations

Some of his notable coworkers include Allan Cairncross and John Edwin Gantzhorn, Jr. Their collaboration has likely enriched the innovative processes and research outcomes in which Bednarz has been involved.

Conclusion

Thomas Kenneth Bednarz stands out as an influential inventor in the realm of electrostatic methods, with a focus on practical applications for particle manipulation. His contributions continue to impact the field significantly.