NHU Performance Materials offers a comprehensive range of high-performance polymers designed to meet the demands of various industries. Our portfolio includes both base polymers and long fibre compounds, each engineered for specific applications requiring exceptional strength, durability, and performance.
With a focus on innovation and sustainability, NHU ensures that our polymers are crafted to the highest quality standards, backed by advanced research and development. Whether you’re looking for base polymers for standard applications or customized long fiber compounds for specialized needs, NHU Performance Materials provides the solutions that drive your business forward.
At NHU, we specialize in delivering high-performance polymer solutions to meet the evolving needs of various industries. Our comprehensive polymer portfolio includes PPS (Polyphenylene Sulfide), PPA (Polyphthalamide), PA 66, long-chain nylon, amorphous barrier nylon, and transparent nylon, providing innovative and reliable materials for demanding applications.
With exceptional properties such as thermal stability, chemical resistance, strength, and durability, our polymers are engineered to excel in industries like automotive, electronics, packaging, and consumer goods. Whether you need materials for lightweight components, solutions for food packaging, or advanced applications requiring transparency and toughness, our polymers deliver unmatched performance.
NHU’s long fibre compounds are engineered to deliver exceptional strength, durability, and dimensional stability, making them the ideal choice for applications requiring enhanced mechanical properties. By incorporating long glass or carbon fibres, these materials offer superior impact resistance, high stiffness, and excellent thermal stability, even under challenging conditions.
Our long fibre compounds are widely used in industries such as automotive, aerospace, electronics, and construction. They provide a lightweight alternative to traditional materials like metals, helping manufacturers achieve significant weight reduction without compromising performance or safety.