"New materials for metal replacement are the key to developing the next generation of lightweight, high-performance components," says Abdullah Shaikh, head of the global PPA team. "The demands on the materials have increased drastically in recent years, mostly because of trends such as ongoing miniaturization, higher efficiency targets, and functional integration. BASF is now expanding its PPA portfolio, thus providing customers with the right plastics to enable them to meet these technical challenges."
For sophisticated technical parts in many industriesWith these properties, Ultramid Advanced T1000 can be applied in many technical parts with a challenging requirement profile: in thermostat housings and water pumps, in fuel circuits and selective catalytic reduction systems, for actuators and clutch parts in cars as well as in coffee machines, as furniture fittings, and in construction applications such as water distributors, heating systems and pumps - in other words, anywhere where high, constant stiffness and strength across a broad temperature range from -40°C to over 80°C (conditioned) are necessary. The new PPA also shows higher resistance to chemicals than conventional aliphatic polyamides in contact with many demanding media, including hot coolants, oils, aggressive fuels, and solutions of road salts containing calcium or zinc salts. It is characterized by a lower water uptake than many aliphatic polyamides: this results in high dimensional stability and in stable physical and mechanical properties of the components - also in the presence of humidity. Ultramid Advanced T1000 is suitable for processing by injection molding. There are different possibilities for post-processing such as laser marking or welding with Ultramid Advanced T1000 grades, other polyamides or polyphthalamides.
Versatile portfolioFor a broad application range, BASF offers a versatile range of T1000 compounds. The initial portfolio consists of heat-stabilized, glass fiber-reinforced standard grades with reinforcement levels ranging from 30 to 60% for different stiffness, strength and toughness values; glass fiber-reinforced special grades with improved hydrolysis resistance with 35 or 45% glass fiber reinforcement, and a special long glass fiber-reinforced, highly heat-stabilized compound for outstanding mechanical performance, especially at higher temperatures. Depending on the requirements of individual applications, grades with different heat stabilizers are also available.