Sun. Jun 16th, 2024
PEEK plastic

PEEK plastic, Ultem material, and their applications range from the aerospace to medical arenas. The market for PEEK and Ultem is strong, but in order to understand where it will be applied in the future, we need to take a look at what is happening now.

One of the main benefits of PEEK is its high-temperature resistance. Today, you will read about everything you need to know about how PEEK withstands high temperatures, why this property has gained so much attention from the scientific community, and what are the various applications in which Ultem plastic can be used. And finally, we will talk about those applications where Ultem plastic is already widely used.

What are high-temperature resistance plastics?

High-temperature resistance plastics, or high-temp resins, are thermoplastics that can sustain high temperatures without deforming or losing their mechanical characteristics.

High-temperature resistant plastics are more commonly known as engineering plastics. They are tougher than many other plastics and can withstand higher temperatures. Standard plastics such as low-density polyethylene have a Melting Point of 125-135 degrees Celsius (257-275 degrees Fahrenheit). High-temperature resistant engineering plastics can have a melting point up to 260 degrees Celsius (500 degrees Fahrenheit).

On a daily basis, we are surrounded by various materials that are basically designed to withstand high levels of temperature. But have you ever wondered which material or material becomes highly resistant to the heat? If not, so let us clear it out that the answer is PEEK and Ultem. 

The question is why these materials are called high-temperature-resistant plastic polymers? The answer to this question is, in short, they are highly resistant to any kind of high-temperature condition and can withstand even the highest temperature. 

Ultem 1000 and PEEK Plastic

In the past, we’ve looked at some of the best materials for heat resistance. These included ceramics, silicon carbide, and diamond. However, these materials are very high-end and often difficult to work with. In this article, I’ll be talking about PEEK plastic and Ultem 1000 material.

PEEK is a polyether ether ketone. It’s a semi-crystalline thermoplastic that has a melting point of around 400℉ (204℃) and a very high glass transition temperature of around 482℉ (250℃). It’s chemically stable when used in the right applications, can be extruded into many different shapes, and is FDA approved for use in food processing equipment where it may come into contact with food products. Usually, the stock shapes of the plastic are PEEK material sheet, rod, and tube.

Ultem 1000 plastic rod is the high-temperature resistant polyetherimide (PEI) thermoset plastic used for a wide range of industrial applications. It is a popular engineering thermoplastic with good strength, stiffness, wear resistance, and electrical properties. Ultem 1000 has good impact strength at high temperatures and can be easily fabricated by machining or injection molding. It also has excellent chemical resistance to most acids, bases, salts, and solvents. 

Ultem 1000 Plastic is highly resistant to chemical attacks including strong acids, strong bases, and salt solutions. The material can be autoclave sterilized and is non-toxic.

The applications of Ultem 1000 and PEEK material

Ultem 1000 plastic has been used in many different industries such as aerospace, pharmaceuticals, and nuclear power plants. This type of plastic is also used to make products such as snowboard bindings and ski poles, which need to withstand extreme conditions.

While talking about PEEK applications, you need PEEK material machining service, especially for small runs. PEEK is used in a wide range of industries including medical devices such as syringes, needles, and catheters; aerospace; oil and gas; automotive industry; consumer goods; lighting; electronics, and telecommunications. The applications include process components such as piping systems, pumps, and anix valve usa, seals, bearing housings and gaskets, window profiles, extrusion profiles for cosmetics containers, laboratory equipment, and kitchen utensils.