Company Filing History:
Years Active: 2015-2019
Title: Innovations of Andreas Paul Benno Wodetzki
Introduction
Andreas Paul Benno Wodetzki is a distinguished inventor from Sprockhövel, Germany. With a focus on advancements in the field of aramid materials, he has been instrumental in developing innovative processes and products that have significant applications in various industries.
Latest Patents
Wodetzki holds two notable patents. The first patent describes a "Process to manufacture a mixture of p-aramid pulp with chopped fibers." This intricate process involves providing both p-aramid pulp and chopped fibers, which are then mixed to produce a consistent mass. Following this, the mixture undergoes dewatering and drying to yield a final product that can be utilized in various applications. The mixture and its usages are also detailed in the patent.
The second patent concerns a "Pellet comprising aramid pulp and filler material." This novel pellet consists of a maximum of 90 weight percent aramid pulp coupled with at least 10 weight percent filler material. The patent outlines a method for manufacturing such pellets, presenting an innovative approach to material synthesis.
Career Highlights
Wodetzki is currently affiliated with Teijin Aramid GmbH, a leading company in the production of high-performance aramid fibers. His contributions to the field underscore his expertise and commitment to advancing material technologies that enhance product performance and sustainability.
Collaborations
Throughout his career, Wodetzki has collaborated with esteemed colleagues such as Mikael Vertommen and Ben Gerhardus Antonius Rolink. These partnerships have fostered a dynamic exchange of ideas and innovations, further driving the development of cutting-edge aramid materials.
Conclusion
Andreas Paul Benno Wodetzki's innovative contributions and patent registrations reflect his profound impact on material science, particularly in the realm of aramid pulp technologies. His work with Teijin Aramid GmbH, combined with significant collaborations, continues to shape the future of high-performance materials.