Teamplast, a leader in the production and processing of high-performance polymers, fully leverages the unique advantages offered by PTFE to meet customer needs in an innovative and efficient manner.

Our choice to use polytetrafluoroethylene (PTFE) as the primary material for many of our products is driven by its exceptional chemical resistance. Teamplast provides solutions that withstand complex industrial environments, ensuring superior durability in the presence of corrosive substances and chemical reagents.

The low coefficient of friction of PTFE is particularly relevant for us, as it allows us to design and produce components with smooth movements and minimal wear. This not only contributes to improving equipment efficiency but also extends its operational life, providing long-term value to our customers.

The outstanding thermal resistance of PTFE is crucial for applications in challenging thermal conditions. Teamplast delivers reliable solutions that maintain their mechanical performance even in environments with extreme temperatures.

The ease of processing PTFE is a key element in our ability to customize solutions to meet specific customer needs. With advanced techniques such as mechanical processing, extrusion, and injection molding, we can create customized products with precision and efficiency.

Furthermore, PTFE is a first-class electrical insulator. This attribute is particularly important in electrical and electronic applications, sectors in which Teamplast offers solutions that ensure safety and reliability.

In summary, the strategic use of PTFE in many of our products solidifies Teamplast's position as a provider of advanced and reliable solutions in the industrial landscape, promoting innovation, efficiency, and durability.

Technopolymers represent a versatile and advanced category of polymeric materials designed to meet high-performance and technical requirements across a wide range of industrial applications. The continuous evolution in the research and development of new materials has led to the creation of technopolymers with exceptional properties that make them essential in multiple sectors.

One of the distinctive features of technopolymers is their superior mechanical strength. These engineered polymers can maintain their structural integrity even under high loads and mechanical stress, offering superior durability and reliability compared to many other materials.

Chemical resistance is another strength of technopolymers. Their ability to withstand chemical attack makes them ideal for aggressive industrial environments where corrosive substances or chemical reagents are present. This results in increased durability and reduced maintenance needs.

The versatility of technopolymers is also evident in their ability to adapt to a wide range of temperatures. Many of them can maintain their mechanical and chemical properties in extreme thermal conditions, allowing for applications in sectors that require reliable performance in hot or cold environments.

Additionally, technopolymers offer significant resistance to wear and abrasion, contributing to the extended lifespan of components and parts. Their lightweight nature, compared to more traditional materials, makes technopolymers particularly attractive for applications where weight reduction is crucial.

Ease of processing is another key advantage of technopolymers. They can be shaped through various production techniques such as injection molding, extrusion, and CNC machining, allowing precise customization based on the specific needs of the application.

In summary, technopolymers embody excellence in material engineering, offering a unique combination of mechanical strength, chemical resistance, thermal versatility, and workability. Their presence is increasingly predominant in sectors such as automotive, aerospace, electronics, and many others, significantly contributing to innovation and efficiency in modern industrial processes.

XPU46 Polyurethane is an advanced material engineered to address these challenges. Its exceptional resistance to hydrolysis allows it to maintain its properties over extended periods, even in the presence of water or other aggressive substances. This high-performance material also offers remarkable chemical resistance to a broad spectrum of agents, making it ideal for use in harsh industrial environments.

Key Features of XPU46 Polyurethane:
Hydrolysis Resistance: Outstanding durability in humid conditions or contact with water.
Wide Temperature Range: Reliable performance from -45°C to +135°C, with specialized formulations for even more
extreme conditions from -55°C to +110°C.
Chemical Compatibility: Suitable for environments with exposure to various oils, chemicals, and solvents.

Applications:
XPU46 Polyurethane seals are the preferred choice in industries such as:
Hydraulics and Pneumatics: Ensuring performance under high-pressure conditions.
Chemical Processing: Resisting degradation in environments with reactive chemicals.
Automotive and Heavy Machinery: Withstanding extreme operational conditions.
Oil & Gas: Providing durability in challenging exploration and production settings.

Benefits:
Increased operational efficiency due to reduced wear and maintenance.
Enhanced safety by preventing leaks and system failures.
Extended lifespan of machinery components through superior material reliability.
With its combination of resilience, adaptability, and long-term performance, XPU46 Polyurethane is a material designed to meet the most demanding industrial requirements, delivering reliable sealing solutions for a variety of critical applications.