Stanyl® ist unser Hochleistungs-Polyamid 46, das für Anwendungen in Automobil-, E & E-, Getriebe- und Außenstromversorgungsanlagen verwendet wird.
Stanyl® ist ein Hochleistungspolyamid, das unübertroffene Leistung und Wert für anspruchsvolle Anwendungen bietet, bei denen überlegene Wärmebeständigkeit, Konstruktionssteifigkeit, Verschleiß und Reibung sowie Prozessflussqualitäten erforderlich sind.
Da Stanyl seine mechanischen Eigenschaften bei hohen Temperaturen bis zu 220 ° C beibehält, ist es ideal für extrem leistungsstarke Anwendungen geeignet, bei denen es PPA, PA6T, PA9T und häufig PPS und LCP übertrifft.
Produkt
Stanyl® TW241F10 ist ein Hochtemperatur-Polyamid, das eine hervorragende Kriechfestigkeit, Festigkeit, Steifheit und Ermüdungsbeständigkeit bietet, insbesondere bei hohen Temperaturen in Kombination mit Zykluszeitvorteilen und ausgezeichnetem Fließen. TW241F10 verfügt über eine hervorragende Erfolgsbilanz bei Getriebeanwendungen und Bauteilen
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Higher torque and durability performance than PPA and PA66
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Allows more compact actuator design and weight savings
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PPA and PA66
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Allows more compact actuator design and also lower weight
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PA66 and POM
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Allows more compact actuator design and weight savings
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PA66 and POM
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Allows more compact actuator design and weight savings
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PPA and PA66
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Allows more compact actuator design and weight savings
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PPA and PA66
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Allows more compact actuator design and weight savings
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Envalior is a global leader in the design, engineering and testing of advanced thermoplastic materials for gears and actuation systems. Automakers and other global manufacturers trust Envalior Engineering Materials to improve the performance of complex automotive applications, appliances, consumer goods, and industrial applications.
In fact, Stanyl® is used in nearly 40 million gears in 100 million automotive actuation systems each year, making it one of the most popular thermoplastic gear materials in the world.}
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Higher torque and durability performance than PPA and PA66
•}
Allows more compact actuator design and also lower weight
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PPA and PA66
•}
Allows more compact actuator design and also lower weight
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PPA and PA66
•}
Allows more compact actuator design and also lower weight
•}
Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
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Higher torque and durability performance than PPA and PA66
•}
Allows more compact actuator design and also lower weight
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
For more than 20 years, Envalior has helped the world’s leading automakers improve the performance and efficiency of timing chain systems, wear guide faces, support arms, and related thermoplastic components through advanced material science.
Envalior offers a full portfolio of durable thermoplastic materials formulated to reduce timing chain friction and improve efficiency. To protect the environment and aid regulatory compliance, Envalior offers letters of conformity for any grades with PTFE confirming they do not contain harmful PFAS or PFOA.
In addition, Envalior offers superior PTFE-free solutions with best-in-class low-friction performance such as Stanyl® HGR3.}
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Higher torque and durability performance than PPA and PA66
•}
Allows more compact actuator design and also lower weight
•}
Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
•}
Higher torque and durability performance than PPA and PA66
•}
Allows more compact actuator design and weight savings
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Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings