Company Filing History:
Years Active: 2010
Title: Guy De Cambry De Baudimont: Innovator in Screw Cap Technology
Introduction
Guy De Cambry De Baudimont is a notable inventor based in Brussels, Belgium. With two patents to his name, he has made significant contributions to the field of packaging technology, particularly in the design and composition of screw caps.
Latest Patents
Guy's latest patents revolve around an innovative screw cap composition. This screws cap is created from a multimodal ethylene polymer, which boasts a standard density (SD) greater than 950 kg/m³ and a melt flow index (MI) of less than 10 g/10 min. The formulation of this multimodal ethylene polymer includes two key fractions: one comprising 35 to 65 weight percent of an ethylene polymer (A) with an SD of more than 965 kg/m³ and an MI of at least 10 g/10 min, and the other consisting of 65 to 35 weight percent of a copolymer (B) of ethylene combined with one alpha-olefin containing 3 to 12 carbon atoms. The copolymer (B) has a melt flow index of less than 10 g/10 min and an alpha-olefin content between 0.1 to 5 mol %. This innovative composition is praised for its excellent balance of environmental stress crack resistance (ESCR), injectability, and impact resistance, alongside outstanding organoleptic properties.
Career Highlights
Guy De Cambry De Baudimont currently works with Ineos Manufacturing Belgium, a recognized leader in the chemical manufacturing sector. His work focuses on enhancing product designs and materials to improve performance characteristics in packaging solutions.
Collaborations
In his endeavors, Guy collaborates closely with his coworker, Pascal Vanden Berghe. Together, they aim to advance innovations in screw cap technology that meet the evolving demands of the packaging industry.
Conclusion
Guy De Cambry De Baudimont exemplifies the spirit of innovation in the field of packaging technology. His patents on screw cap compositions highlight his commitment to developing solutions that combine functionality with superior material properties, ultimately contributing to more effective and sustainable packaging solutions.