• NORYL

    Typical characteristics of NORYL® include excellent dimensional stability, low mold shrinkage, low water absorption and very low creep behavior at elevated temperatures. These properties combined with an outstanding hydrolytic stability in hot and cold water, make NORYL® an excellent potential candidate for fluid engineering applications.
    Another outstanding feature of NORYL® is its retention of tensile and flexural strength, even at elevated temperatures. The gradual reduction in modulus as temperature is increased, is a key advantage of this material. As a result, parts fabricated from NORYL® shapes may be used with predictable performance over a wide temperature range.  Another important advantage of NORYL® is its predictably low creep behavior, even at elevated temperatures.
    NORYL® exhibits excellent electrical properties, which remain stable over a wide range of temperature, humidity and frequency variations. This stability, together with a fine-tuned balance of thermal and impact properties, makes NORYL® an excellent potential candidate for demanding electrical and electronic applications, including electrical insulators.
    All flame retardant NORYL® resins are designed with non-brominated and non-chlorinated flame retardant systems.

  • NORYL

    Typical characteristics of NORYL® include excellent dimensional stability, low mold shrinkage, low water absorption and very low creep behavior at elevated temperatures. These properties combined with an outstanding hydrolytic stability in hot and cold water, make NORYL® an excellent potential candidate for fluid engineering applications.
    Another outstanding feature of NORYL® is its retention of tensile and flexural strength, even at elevated temperatures. The gradual reduction in modulus as temperature is increased, is a key advantage of this material. As a result, parts fabricated from NORYL® shapes may be used with predictable performance over a wide temperature range.  Another important advantage of NORYL® is its predictably low creep behavior, even at elevated temperatures.
    NORYL® exhibits excellent electrical properties, which remain stable over a wide range of temperature, humidity and frequency variations. This stability, together with a fine-tuned balance of thermal and impact properties, makes NORYL® an excellent potential candidate for demanding electrical and electronic applications, including electrical insulators.
    All flame retardant NORYL® resins are designed with non-brominated and non-chlorinated flame retardant systems.

  • NORYL

    Typical characteristics of NORYL® include excellent dimensional stability, low mold shrinkage, low water absorption and very low creep behavior at elevated temperatures. These properties combined with an outstanding hydrolytic stability in hot and cold water, make NORYL® an excellent potential candidate for fluid engineering applications.
    Another outstanding feature of NORYL® is its retention of tensile and flexural strength, even at elevated temperatures. The gradual reduction in modulus as temperature is increased, is a key advantage of this material. As a result, parts fabricated from NORYL® shapes may be used with predictable performance over a wide temperature range.  Another important advantage of NORYL® is its predictably low creep behavior, even at elevated temperatures.
    NORYL® exhibits excellent electrical properties, which remain stable over a wide range of temperature, humidity and frequency variations. This stability, together with a fine-tuned balance of thermal and impact properties, makes NORYL® an excellent potential candidate for demanding electrical and electronic applications, including electrical insulators.
    All flame retardant NORYL® resins are designed with non-brominated and non-chlorinated flame retardant systems.

  • NORYL

    Typical characteristics of NORYL® include excellent dimensional stability, low mold shrinkage, low water absorption and very low creep behavior at elevated temperatures. These properties combined with an outstanding hydrolytic stability in hot and cold water, make NORYL® an excellent potential candidate for fluid engineering applications.
    Another outstanding feature of NORYL® is its retention of tensile and flexural strength, even at elevated temperatures. The gradual reduction in modulus as temperature is increased, is a key advantage of this material. As a result, parts fabricated from NORYL® shapes may be used with predictable performance over a wide temperature range.  Another important advantage of NORYL® is its predictably low creep behavior, even at elevated temperatures.
    NORYL® exhibits excellent electrical properties, which remain stable over a wide range of temperature, humidity and frequency variations. This stability, together with a fine-tuned balance of thermal and impact properties, makes NORYL® an excellent potential candidate for demanding electrical and electronic applications, including electrical insulators.
    All flame retardant NORYL® resins are designed with non-brominated and non-chlorinated flame retardant systems.

  • NORYL

    Typical characteristics of NORYL® include excellent dimensional stability, low mold shrinkage, low water absorption and very low creep behavior at elevated temperatures. These properties combined with an outstanding hydrolytic stability in hot and cold water, make NORYL® an excellent potential candidate for fluid engineering applications.
    Another outstanding feature of NORYL® is its retention of tensile and flexural strength, even at elevated temperatures. The gradual reduction in modulus as temperature is increased, is a key advantage of this material. As a result, parts fabricated from NORYL® shapes may be used with predictable performance over a wide temperature range.  Another important advantage of NORYL® is its predictably low creep behavior, even at elevated temperatures.
    NORYL® exhibits excellent electrical properties, which remain stable over a wide range of temperature, humidity and frequency variations. This stability, together with a fine-tuned balance of thermal and impact properties, makes NORYL® an excellent potential candidate for demanding electrical and electronic applications, including electrical insulators.
    All flame retardant NORYL® resins are designed with non-brominated and non-chlorinated flame retardant systems.

  • NORYL

    Typical characteristics of NORYL® include excellent dimensional stability, low mold shrinkage, low water absorption and very low creep behavior at elevated temperatures. These properties combined with an outstanding hydrolytic stability in hot and cold water, make NORYL® an excellent potential candidate for fluid engineering applications.
    Another outstanding feature of NORYL® is its retention of tensile and flexural strength, even at elevated temperatures. The gradual reduction in modulus as temperature is increased, is a key advantage of this material. As a result, parts fabricated from NORYL® shapes may be used with predictable performance over a wide temperature range.  Another important advantage of NORYL® is its predictably low creep behavior, even at elevated temperatures.
    NORYL® exhibits excellent electrical properties, which remain stable over a wide range of temperature, humidity and frequency variations. This stability, together with a fine-tuned balance of thermal and impact properties, makes NORYL® an excellent potential candidate for demanding electrical and electronic applications, including electrical insulators.
    All flame retardant NORYL® resins are designed with non-brominated and non-chlorinated flame retardant systems.