Company Filing History:
Years Active: 2014-2019
Title: Innovations by Cornelia Haag in Roller Bearing Technology
Introduction
Cornelia Haag is a prominent inventor based in Aubstadt, Germany. She has made significant contributions to the field of roller bearing technology with a total of two patents to her name. Haag's work focuses on developing advanced lubricants and bearing cages that enhance the efficiency and longevity of rolling-element bearings.
Latest Patents
Cornelia Haag's latest patents include innovative solutions aimed at improving roller bearings. One of her patents pertains to a lubricant for rolling-element bearings that combines a conventional base lubricant with a unique additive—muscovite. This lubricant contains between 3% and 5% muscovite, significantly enhancing its performance. The patent also details methods for both lubricating and repairing rolling-element bearings using this specialized lubricant.
Her other patent introduces a bearing cage designed with lipophobic or oleophobic surfaces. This annular structure incorporates a material that prevents adhesion of liquids, ensuring optimal functionality. The design features pockets to hold roller bodies and requires a lubricant that maintains a contact angle of at least 90° on the first material, contributing to improved performance.
Career Highlights
Currently, Cornelia Haag is an inventor at Aktiebolaget SKF, a leading company in bearing and lubrication technology. Her innovations in roller bearings have not only advanced industry standards but also contributed to the development of more reliable and efficient machinery.
Collaborations
Throughout her career, Haag has collaborated with talented coworkers such as Yvonne Koehler and Kerstin Korbacher, fostering an environment of innovation and teamwork that leads to groundbreaking advancements in their field.
Conclusion
Cornelia Haag's inventive spirit has brought forth notable advancements in roller bearing technology. Her patents exemplify her commitment to enhancing the functionality and durability of mechanical components, ultimately contributing to the broader engineering and manufacturing sectors.