Maik Dimmerling

Title: Maik Dimmerling: Innovating Additive Manufacturing with Polyesters

Introduction: Maik Dimmerling, an inventive mind based in Oer-Erkenschwick, Germany, has made significant contributions to the field of additive manufacturing. With one patent to his name, Dimmerling's work demonstrates the intersection of creativity and technical prowess in the world of materials science.

Latest Patents: Maik Dimmerling's patent, titled "Composition comprising polyesters for additive manufacturing," revolves around a unique additive manufacturing process. This innovation utilizes a composition that includes the reaction product of a polyester polyol and a compound featuring at least one functional group capable of reacting with a hydroxyl group of the polyester polyol. Additionally, the composition may contain further functional groups selected from acrylate or methacrylate groups. Notably, the polyester polyol is derived from organic acids with at least two carboxyl groups, enabling a glass transition temperature (Tg) of below 23° C., which enhances its suitability for various applications in additive manufacturing.

Career Highlights: Maik Dimmerling is currently associated with Evonik Operations GmbH, a prominent company in the specialty chemicals market. His role there has allowed him to apply his research and innovative ideas, contributing to advancements in additive manufacturing techniques that leverage his expertise in polyester compositions.

Collaborations: During his career, Maik Dimmerling has worked alongside talented individuals such as David Bléger. Their collaboration emphasizes the importance of teamwork in research and development, fostering an environment where innovative ideas can thrive and result in impactful technological advancements.

Conclusion: Maik Dimmerling's inventive contributions to additive manufacturing underscore his role as a valuable innovator in the field. With a focus on polyester compositions and their practical applications, Dimmerling continues to push the boundaries of what's possible in materials science, paving the way for future advancements in additive manufacturing technologies.