Location History:
- Glastonbury, CT (US) (2006 - 2016)
- Manchester, CT (US) (2018 - 2020)
Company Filing History:
13 out of 10,654 
2 out of 2,485 
Years Active: 2006-2020
Title: Monika D Kinstler: Innovator in Electrodeposition Technologies
Introduction
Monika D Kinstler is a prominent inventor based in Glastonbury, CT (US). She has made significant contributions to the field of materials science, particularly in the development of advanced electrodeposition technologies. With a total of 15 patents to her name, Kinstler has established herself as a leading figure in her area of expertise.
Latest Patents
Kinstler's latest patents include innovative technologies such as a nickel-chromium-aluminum composite by electrodeposition. This composite includes a nickel-chromium alloy and aluminum, specifically designed for turbine components. The composition comprises from 2 to 50 wt % chromium, from 0.1 to 6 wt % aluminum, and a remaining balance of nickel. The heat treatment of this composite is crucial for forming aluminum compounds and restoring materials lost during repair processes of turbine components. Another notable patent is for an electrodeposited nickel-chromium alloy, which describes a method for restoring turbine engine components by rebuilding wall thickness with the Ni-Cr alloy. This alloy also includes from 2 to 50 wt % chromium balanced with nickel, and the turbine component is heat-treated to homogenize the composition.
Career Highlights
Throughout her career, Monika D Kinstler has worked with leading companies in the aerospace and technology sectors. She has been associated with United Technologies Corporation and Raytheon Technologies Corporation, where she has applied her expertise in materials science to develop cutting-edge technologies.
Collaborations
Kinstler has collaborated with various professionals in her field, including her coworker David A Rutz. Their joint efforts have contributed to advancements in electrodeposition techniques and materials development.
Conclusion
Monika D Kinstler's innovative work in electrodeposition technologies has made a significant impact on the aerospace industry. Her contributions continue to influence the development of advanced materials for turbine components and beyond.