Location History:
- Savage, MN (US) (2010)
- Bloomington, MN (US) (2015 - 2023)
Company Filing History:
Years Active: 2010-2023
Title: Antanas Daugela: Innovator in Nanoindentation Technology
Introduction
Antanas Daugela is a prominent inventor based in Bloomington, MN (US), known for his significant contributions to the field of nanoindentation technology. With a total of 8 patents to his name, Daugela has developed innovative methods that enhance the characterization of materials at the nanoscale.
Latest Patents
Daugela's latest patents include groundbreaking methods for characterizing nanoindented and scratch-induced acoustic events. One of his notable inventions is a method for creating and characterizing a representative image or signal transform of an object's surface from acoustic emissions or ultrasonic signals. This technology utilizes a multimode ultrasonic probe tip and transducer integrated into a micro tool, such as a nano indenter or a nano indenter interfaced with a Scanning Probe Microscope (SPM). The representative images generated can predict mechanical properties or characteristics of the sample, including topography, fracture patterns, indents, and artifacts. The tip component operates at multi-resonant frequencies, providing sub-nanometer vertical resolution. Additionally, deep learning iterative image comparison and characterization techniques are employed to derive mechanical properties of the sample.
Career Highlights
Throughout his career, Daugela has worked with notable companies such as Nanometronix LLC and Seagate Technology Incorporated. His work has significantly advanced the understanding and application of nanoindentation techniques in various industries.
Collaborations
Daugela has collaborated with esteemed colleagues, including Neal Frank Gunderson and Andrew Robert Motzko, contributing to the development of innovative technologies in his field.
Conclusion
Antanas Daugela's work in nanoindentation technology exemplifies the impact of innovative thinking in material science. His patents and career achievements highlight his dedication to advancing the understanding of mechanical properties at the nanoscale.