Company Filing History:
Years Active: 2004
Title: Innovations by Inventor Dieter Göbbels in Polyamide Production
Introduction:
Dieter Göbbels is an accomplished inventor based in Kempen, Germany. With a total of three patents to his name, Göbbels has made significant contributions to the field of polyamide production, showcasing his expertise in chemical processes and material development.
Latest Patents:
His latest patents include a novel process for the production of polyamide, which utilizes low-molecular weight compounds extracted from (co)polyamides. This innovative procedure involves the reaction of these compounds with 10 to 15 weight percent water, conducted over a period of 3.5 to 6 hours at temperatures ranging from 220°C to 270°C, ultimately leading to polymerization alongside caprolactam.
Another of his notable inventions is a method for producing polyamide or copolyamide that is free from volatile constituents. This method ensures the removal of volatile substances, particularly monomers and dimers, in at least two stages from the polymer melt using a gaseous entrainer. His research also delves into the production of polyamide compositions, particularly polyamide 6 or copolyamide, which boast reduced volatile constituent content, along with moulding compositions and articles fabricated from these polymers.
Career Highlights:
Dieter Göbbels has worked with Bayer Aktiengesellschaft, a leading company in the chemical and pharmaceutical industry. His contributions to polyamide technology have not only advanced the company’s research and development but have also set new industry standards.
Collaborations:
During his career, Göbbels has collaborated with esteemed colleagues such as Konrad Triebeneck and Heinrich Haupt. Their collective expertise has fostered innovation and has played a crucial role in the development of cutting-edge polyamide production methods.
Conclusion:
In summary, Dieter Göbbels stands out as a prominent inventor in the realm of polyamide production. His notable patents reflect a profound understanding of chemical processes, which have the potential to influence the future of material science and polymer engineering significantly.