Location History:
- Reutte/Tirol, AT (2005)
- Reutte, AT (1987 - 2009)
Company Filing History:
2 out of 32 
2 out of 38 
Years Active: 1987-2009
Title: Innovations by Wolfgang Glatzle in Superconducting Wire Technology
Introduction
Wolfgang Glatzle is an accomplished inventor based in Reutte, Austria. He has made significant contributions to the field of superconducting materials, holding two patents that showcase his innovative approaches to producing advanced superconducting wires.
Latest Patents
Glatzle's latest patents include a "Process for producing an ODS sintered alloy" and a "Process for producing a superconducting wire having a Chevrel phase." The latter invention addresses the challenges of producing superconducting wires from Chevrel phases, specifically PbMo6S8. His process involves loading the superconducting Chevrel phase into a vacuum-tight molybdenum shell, which is then sealed in a steel jacket. This innovative method allows for the production of superconducting wires with an average grain size of less than 1 micrometer. The wires are extruded at high temperatures and undergo multiple processing steps, resulting in superior critical quantities such as current bearing capacity and critical current density.
Career Highlights
Glatzle is associated with Schwarzkopf Development Corporation, where he continues to advance his research in superconducting technologies. His work has led to the development of wires that not only meet but often exceed the performance of existing type II superconductors. This achievement is particularly notable as it allows for the winding of such wires into coils without compromising their superconducting properties.
Collaborations
Glatzle collaborates with Udo Gennari, contributing to the innovative research and development efforts at Schwarzkopf Development Corporation. Their partnership has been instrumental in pushing the boundaries of superconducting wire technology.
Conclusion
Wolfgang Glatzle's contributions to the field of superconducting materials exemplify the spirit of innovation. His patents reflect a deep understanding of material science and engineering, paving the way for advancements in superconducting technologies.