Company Filing History:
Years Active: 1982-1994
Title: Innovations of Walter M Madigosky
Introduction
Walter M Madigosky is an accomplished inventor based in Silver Spring, MD (US). He has made significant contributions to the field of material property measurement, holding a total of 3 patents. His work focuses on innovative methods for assessing the dynamic mechanical properties of materials.
Latest Patents
Madigosky's latest patents include a system for in situ dynamic material property measurement. This system involves periodically indenting material with a probe driven by an oscillation frequency regulated by an analyzer. The analyzer receives input measurement data from a sensing head connected to the probe, allowing for real-time assessment of material resistance to indentation. A computer linked to the analyzer calculates steady-state data on dynamic material properties as a time-dependent function.
Another notable patent is a method for measuring material characteristics. This method provides a fast and reliable way to determine the dynamic mechanical properties of materials, particularly their modulus of elasticity and loss factor. The process involves using miniature accelerometers attached to an elongate strip of material. By exciting one end of the strip with a random noise source, the accelerometers measure the acceleration ratios at both ends, enabling the determination of Young's modulus and loss factor through data analysis.
Career Highlights
Walter M Madigosky works for the United States Navy, where he applies his expertise in material science to develop innovative measurement techniques. His contributions have been instrumental in advancing the understanding of material properties in various applications.
Collaborations
Madigosky collaborates with fellow inventor Gilbert F Lee, enhancing the scope and impact of their research in material property measurement.
Conclusion
Walter M Madigosky's innovative patents and career at the United States Navy highlight his significant contributions to the field of material science. His work continues to influence the methods used for measuring material properties, showcasing the importance of innovation in this area.