High modulus, impact resistance, dimensional stability, and toughness.
Cost savings, lighter parts, and faster cycle times, all while maintaining excellent performance characteristics.
Automotive Interior, Dashboard & Trims. Automotive Exterior, Bumpers & Body Side Mouldings. Appliance: Home & Industrial.
Nano Engineered Polypropylene Compound represents a breakthrough in material innovation, offering a multitude of exceptional properties. With its ultra-stiffness and high modulus, it surpasses traditional polypropylene compounds, providing superior strength and rigidity. Its toughness and high impact resistance make it ideal for demanding applications where durability is paramount. Additionally, the hi-flow characteristic and fast mold cycles contribute to improved production efficiency. The Nano Engineered Polypropylene Compound offers a remarkable cost-performance value, combining excellent performance with cost-effectiveness.
In the automotive industry, it finds particular relevance as a scratch-resistant compound, contributing to the longevity and appearance of automotive components. The Nano Engineered Polypropylene Compound stands as a game-changer, pushing the boundaries of performance and value, and unlocking new possibilities across industries.
It exhibits low shrinkage, minimizing dimensional changes during the molding process. Furthermore, the material is lightweight yet stiff and tough, delivering a winning combination of performance and efficiency. It boasts a lower coefficient of linear thermal expansion (CLTE), reducing the risk of distortion due to temperature variations. With its excellent aesthetics and outstanding properties, the Nano Engineered Polypropylene Compound unlocks new possibilities in various industries, from automotive components to consumer goods and beyond.
The Nano Engineered Polypropylene Compound for the Appliance industry sets a new standard with its ultra-stiffness and high modulus, providing unparalleled strength and rigidity. Its high gloss appearance adds a touch of sophistication, giving products a distinct and non-plastic aesthetic and can be used as ABS replacement. With its high flow characteristics and fast mold cycles, it offers enhanced production efficiency. The compound’s remarkable scratch resistance ensures long-lasting durability and preserves the pristine appearance of the end products.