ultem 1000 datasheet

Ultim 1000 Datasheet – Essential Specs & Applications

Hello, and welcome to our comprehensive Ultim 1000 datasheet! In this article, we will explore the essential specifications and applications of this remarkable thermoplastic material. ULTEM 1000 is widely recognized for its outstanding performance in various industries, thanks to its unique properties and versatility.

ULTEM 1000 offers exceptional long-term heat resistance, with a high glass transition temperature of 217 °C and relative thermal indices (RTI) up to 180 °C. This makes it particularly suitable for applications where thermal stability is crucial. Whether you need a material that can withstand high temperatures or maintain its properties over an extended period, ULTEM 1000 is an ideal choice.

When it comes to strength and stiffness, ULTEM 1000 surpasses other amorphous thermoplastic resins. It exhibits excellent mechanical performance, even at temperatures up to 200 °C. Moreover, transparent grades of ULTEM 1000 possess the same strength as thermoplastics with opacifying fillers. This exceptional strength and stiffness make ULTEM 1000 a go-to material for applications that require high-performance under demanding conditions.

The dimensional stability of ULTEM 1000 sets it apart from other thermoplastics in the market. It demonstrates exceptional resistance to dimensional changes across a wide temperature range, ensuring reliable performance in various environments. Additionally, ULTEM 1000 offers high-tolerance dimensional capabilities, making it suitable for precision applications that demand accurate and consistent dimensions.

ULTEM 1000 resins also possess remarkable resistance to environmental stress and cracking. Unlike most other amorphous thermoplastics, ULTEM resins retain their strength and integrity when exposed to a wide range of chemicals, fluids, and solutions. From automotive and aircraft fluids to hydrocarbons, alcohols, acids, and weak aqueous solutions, ULTEM 1000 delivers exceptional resistance, contributing to its long-term durability.

We understand the importance of having detailed technical information, so stay tuned for the next sections where we will delve deeper into the specific characteristics and applications of ULTEM 1000. Whether you need a datasheet, specification sheet, or material properties information, we have you covered. Let’s explore this remarkable material together and unlock its full potential.

Long-Term Heat Resistance

ULTEM 1000 is a thermoplastic resin that exhibits exceptional stability of physical and mechanical properties at elevated temperatures. With a high glass transition temperature of 217 °C, ULTEM 1000 is capable of withstanding temperatures up to 180 °C, as indicated by its relative thermal indices (RTI).

Its impressive long-term heat resistance makes ULTEM 1000 an ideal choice for industries where thermal stability is essential. Whether it’s high-temperature applications in aerospace, automotive, electronics, or industrial manufacturing, ULTEM 1000 excels in maintaining its integrity and performance.

ultem 1000 heat resistance

Property Description
Glass Transition Temperature (Tg) 217 °C
Relative Thermal Indices (RTI) Up to 180 °C

Strength and Stiffness

ULTEM 1000, a superior amorphous thermoplastic resin, stands out with its remarkable mechanical performance in terms of strength and stiffness. With predictable characteristics, it maintains its rigidity and durability even at temperatures up to 200 °C.

Notably, even transparent grades of ULTEM 1000 exhibit comparable strength to thermoplastics that are filled with opacifying fillers. This exceptional strength and stiffness make ULTEM 1000 the optimal choice for applications that demand robust performance in challenging environments.

Whether it’s a high-stress industrial setting or an application exposed to extreme conditions, ULTEM 1000 provides the structural integrity required for long-lasting performance and reliability.

Dimensional Stability

ULTEM 1000 stands out as one of the most dimensionally stable thermoplastics in today’s market. Its exceptional dimensional stability, combined with its reliable performance across varying conditions, makes it a top choice for numerous applications. Whether subjected to extreme temperatures or fluctuating environments, ULTEM 1000 maintains its shape and structural integrity, ensuring long-lasting performance.

Filled grades of ULTEM 1000 offer high-tolerance dimensional capabilities, making them particularly suitable for precision applications. With their superior dimensional stability, these grades provide the reliability and consistency required for demanding industries like aerospace, automotive, and electronics manufacturing.

ultem 1000 dimensional stability

When it comes to dimensional stability, ULTEM 1000 delivers unmatched performance. Its ability to maintain shape and size over time, even under challenging conditions, makes it an excellent choice for applications that demand precision and reliability.

Environmental Stress & Cracking Resistance

ULTEM 1000 resins offer exceptional resistance to environmental stress and cracking. Unlike most other amorphous thermoplastics, ULTEM resins maintain their strength and integrity even when exposed to a wide range of chemicals and solutions. This includes automotive and aircraft fluids, hydrocarbons, alcohols, acids, and weak aqueous solutions.

This remarkable resistance to stress cracking contributes to the long-term durability and reliability of ULTEM 1000 in various applications. Whether it’s in demanding industrial environments or critical engineering projects, ULTEM 1000’s resistance to environmental stress ensures consistent performance and product longevity.

With ULTEM 1000, you can have confidence in the material’s ability to withstand harsh conditions and maintain its mechanical properties over time. Its reliability makes it a top choice for industries that require exceptional resistance to cracking and prolonged exposure to challenging environments.

FAQ

What are the essential specifications of ULTEM 1000?

ULTEM 1000 offers excellent long-term heat resistance with a high glass transition temperature of 217 °C and relative thermal indices (RTI) up to 180 °C. It exhibits outstanding strength and stiffness compared to other amorphous thermoplastic resins, even at temperatures up to 200 °C. ULTEM 1000 is known for its dimensional stability and excellent resistance to environmental stress and cracking.

Is ULTEM 1000 flame resistant?

Yes, ULTEM 1000 has inherent flame resistance without additives. It meets UL94 V0 specifications and generates low smoke during combustion.

What manufacturing processes are suitable for ULTEM 1000?

ULTEM 1000 is easily processable through extrusion, thermoforming, extrusion blow molding, and injection molding methods.

Does ULTEM 1000 offer sustainability benefits?

Yes, ULTEM 1000 offers sustainability benefits. There are ISCC+ certified renewable bio-based ULTEM resins available.

How does ULTEM 1000 perform at elevated temperatures?

ULTEM 1000 demonstrates excellent stability of physical and mechanical properties at elevated temperatures, thanks to its high glass transition temperature of 217 °C. It can withstand temperatures up to 180 °C, as indicated by its relative thermal indices (RTI).

What are the mechanical properties of ULTEM 1000?

ULTEM 1000 exhibits outstanding mechanical performance, surpassing other amorphous thermoplastic resins in terms of strength and stiffness. It maintains predictable stiffness and strength up to temperatures of 200 °C. Even transparent grades of ULTEM 1000 possess the same strength as other thermoplastics with opacifying fillers.

Why is dimensional stability important for ULTEM 1000?

ULTEM 1000 is one of the most dimensionally stable thermoplastics available in the market. It offers exceptional dimensional stability over a wide temperature range, ensuring reliable performance across varying conditions. Filled grades of ULTEM 1000 exhibit high-tolerance dimensional capabilities, making it suitable for precision applications.

How does ULTEM 1000 resist stress cracking?

ULTEM 1000 resins are known for their exceptional resistance to environmental stress and cracking. Unlike most other amorphous thermoplastics, ULTEM resins retain their strength and integrity when exposed to a wide range of chemicals and solutions, including automotive and aircraft fluids, hydrocarbons, alcohols, acids, and weak aqueous solutions. This resistance to stress cracking contributes to the long-term durability and reliability of ULTEM 1000 in various applications.

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