Company Filing History:
Years Active: 2004
Title: Frank Albracht: Innovating Soundproofing Solutions
Introduction
Frank Albracht is an innovative inventor based in Waltershausen, Germany. He has made significant contributions to the field of soundproofing materials, focusing on the development of a rubber-based composition that enhances acoustic insulation.
Latest Patents
Albracht holds a notable patent for a rubber-based soundproofing material. This invention comprises a mixture featuring a rubber blend, metals, or their oxides, alloys, or salts, combined with conventional mixing ingredients. The innovative design can utilize non-blended chlorobutyl rubber, bromobutyl rubber, or acrylate rubber, or it may involve a blend of nitrile rubber or styrene-butadiene rubber with epoxidized natural rubber. The specified proportions in the mixture are crucial for achieving the desired soundproofing effect: 10-15% by weight of rubber or rubber blend, 85-40% by weight of metal or its oxides, alloys, or salts, and 5-10% by weight of mixing ingredients.
Career Highlights
Frank operates at Thüringen GmbH, where he has been instrumental in driving soundproofing innovations. His work has notably advanced the company's product offerings, contributing to their reputation in the industry. With only one patent to his name thus far, his invention has the potential to revolutionize soundproofing technology.
Collaborations
During his career, Frank has collaborated with esteemed colleagues Gerd Lotze and Karl-Heinz Krause. These partnerships have fostered a creative environment within Thüringen GmbH, leading to enhanced development processes and innovative solutions in soundproofing materials.
Conclusion
Frank Albracht stands as a prominent figure in the field of soundproofing, particularly with his innovative rubber-based soundproofing material. His contributions through Thüringen GmbH and collaboration with fellow inventors underscore his commitment to advancing acoustic technologies. With his patent, he paves the way for future innovations in the domain of sound insulation.