In the world of extrusion, there are some who refuse to use PEEK plastic, Ultem 1000, or Ultem 2300. The reasoning behind this decision is left up to speculation; some are under the impression that these materials cannot be processed in standard extrusion equipment. All three materials are available in solid rod form (round), which can be processed in any number of extrusion lines. This is one of the main reasons extruding PEEK plastic, Ultem 1000, and Ultem 2300 is such an attractive option for many businesses.
Are you thinking about buying extruded PEEK plastic, Ultem 1000, or Ultem 2300? You’re not alone. These plastics are some of the most commonly extruded plastics available today. There are a lot of benefits to using this type of product, but what stands out more than anything is the ability to work with these plastics at a high temperature.
The pros of PEEK plastic
For those interested in the details, PEEK is a polymer or plastic, that is difficult to produce and can be expensive. But it’s also resistant to heat, corrosion, and chemicals. Its applications cover a wide range of industries including aerospace and medical equipment. It’s also used in pipes for plumbing because its resistance to corrosion allows it to handle corrosive liquids without cracking.
So what exactly is PEEK plastic? It’s a well-known engineering material that’s used in industries ranging from aerospace to medical applications. It’s a thermoplastic, meaning it melts when heated and then cools into a solid again. Extrude PEEK rod is highly resistant to chemicals, resists corrosion, and can withstand high temperatures.
It’s a strong, abrasion-resistant material that can be used in many different applications. It’s great for use in demanding environments because it doesn’t become brittle over time. Unlike other plastics, PEEK plastic maintains its elasticity under temperature extremes and doesn’t absorb moisture from the environment.
The pros of PEEK plastic include its durability, chemical resistance, and heat tolerance. Also, since it’s tough, the material won’t warp out of shape when exposed to high temperatures. However, this strong material is also heavy and rigid so it can be difficult to work with.
Benefits of Ultem 1000 and Ultem 2300
Here are some of the benefits of Ultem 1000 resin, if you want to find the material, check Ultem 1000 sheet supplier
Works with a wide range of resins, including polyurethanes, epoxies, and polyesters.
Excellent chemical resistance; particularly suited for medical applications.
High stiffness to weight ratio.
Excellent dimensional stability; excellent electrical properties.
Low moisture absorption; low stress; low shrinkage; good dimensional stability at high temperatures.
Good abrasion resistance and impact strength; resistance to chemicals, solvents, and steam sterilization temperature.
Low moisture absorption (0.03% by weight); resists creep or permanent deformation under load at elevated temperatures.
No hazardous or toxic ingredients.
Ultem 2300 is a high temperature engineering plastic. It is formulated to be flame retardant and chemically inert. The material is well suited for applications requiring high heat resistance, chemical resistance, low moisture absorption or dimensional stability. Also, the material has low gas permeability, which makes it a good choice for vacuum formers.
Ultem 2300 sheet is an amorphous, transparent thermoplastic. Like other Ultems, the resin offers high heat resistance, excellent chemical resistance and low moisture absorption, making it ideal for use in demanding applications such as medical device and aerospace components.
Ultem 2300 maintains its high level of mechanical properties down to -260°F (-162°C). This makes it an ideal material for cryogenic vessels, engine components and aerospace applications.
Its extremely good dimensional stability enables longer service life when subjected to elevated temperatures. This makes it perfect for engine components from aircraft engines to household hot water cylinders.
Ultem 2300 maintains its dimensional stability at room temperature, so there is no need for post-curing. This reduces processing time, providing greater design freedom and cost savings.
