Recycling content TPE for handle surfaces for Hilti tools
Iranpolymer/Baspar By developing Recycling Content TPE with excellent adhesion to PA, Hilti and KRAIBURG TPE have now successfully expanded their partnership to also include projects with focus on sustainability. The starting point for expanding a more than two decades-long collaboration was the increasing emphasis that both companies put on the expansion of sustainable strategies and initiatives – especially where these can be incorporated into the development of new products and product components on a larger scale. As part of the Supplier Recognition Model, KRAIBURG TPE also receives the “Distinguished Honors – Special Products” award from Hilti.
The project cooperation between Hilti, the tool manufacturer, and KRAIBURG TPE, which started in 2021, was aimed at developing a recycling compound that can be used as a surface material for polyamide-based tool handles. After the requirements for the thermoplastic elastomer (TPE) to be newly designed had been defined, KRAIBURG TPE started to develop the new material in the summer of 2021. The main goal was to integrate a maximum high proportion of PIR and PCR raw materials into the formulation. In other words, materials that could be reused from both industrial waste materials (PIR = post-industrial recycled) and private households (PCR = post-consumer recycled).
It was also necessary to retain the existing properties of the TPE already in use. These included the defined hardness range and in particular the adoption of the distinct adhesion to PA. In addition, the flowability of the thermoplastic elastomer was further improved during the subsequent development process. The newly developed Recycling Content TPE enabled KRAIBURG TPE’s development team to supply the customer with a compound early in 2023 that still meets the key requirements for the existing material, but at the same time contains a high proportion of recycled raw materials. Karin Maier, customer manager for Hilti at KRAIBURG TPE, explains: “Taking into account the required properties, we have developed a formulation that provides a recycled content of significantly more than fifty percent. Lower density results in weight savings – with the quality remaining the same.” According to Karin Maier, other optimizations of sustainability factors in the production cycle were also made such as savings in CO2 consumption and consolidation of materials. She adds: “The result satisfied us, but, what’s more, it satisfied our customer!”
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