Injection Molding Solutions Designed to Meet Global Demands for Plastic Production
Husky Injection Molding Systems will feature solutions for every market need, focusing on new, innovative technologies that meet the changing global demands of plastic producers at K 2019.
Husky Injection Molding Systems will feature solutions for every market need, focusing on new, innovative technologies that meet the changing global demands of plastic producers at K 2019. The company’s booth will offer an interactive experience, showcasing latest innovations.
The company offers a variety of injection molding solutions based on varying application and production needs and will be debuting its new versatile HyPET5 PET systems portfolio at the show, as well as its flexible, lower cavitation NexPET system and mold. For the first time, the company will also be running its high-productivity HyPET HPP5e system, designed to deliver complete design freedom, energy savings, system reliability, superior preform quality and user friendliness.
The company’s variety of injection molding solutions enable more post-consumer resin (PCR) in packages, including PET preform molding systems capable of handling recycled content and PCR options for its multi-layer technology. The company is also developing more energy efficient systems, increased lightweighting capabilities and innovative tethered closure designs to meet recycling and packaging legislation. The company will highlight how its multi-layer technology satisfies various application requirements, including barriers for light, oxygen and carbon dioxide, as well as bottles with exciting new design and functional treatments that dramatically enhance shelf appeal.
The company has developed its Next Generation Operating Model (NGOM), which is a digitalized end-to-end manufacturing system that offers enhanced capabilities to deliver solutions with unmatched speed and flexibility. At the show, Husky will demonstrate how it is developing this digitalized, end-to-end ordering and manufacturing process.