LANXESS unveils new generation of hydrolysis stabilised: Pocan XHR

By admin October 9, 2019 5:28 pm

[vc_row][vc_column][vc_column_text]Compounds based on polybutylene terephthalate (PBT) need greater resistance to hydrolysis and aging in hot and humid environments when used in automobiles. For instance, the high electrical power densities of high-voltage systems in electric vehicles lead to greater temperature loads. Furthermore, additional thermal loads arise when charging the battery. In combustion engines, there is a trend towards turbocharged engines, which results in increased temperatures in the engine compartment.

With this in mind, the specialty chemicals company LANXESS has developed the new PBT product range Pocan XHR (Xtreme Hydrolysis Resistance). At K 2019, the international trade show for plastics and rubber taking place in Düsseldorf from October 16 to 23, the High Performance Materials business unit will be showcasing these innovative compounds. They have achieved outstanding results in the SAE/USCAR-2 Rev. 6 long-term tests of the American Society of Automotive Engineers (SAE). “In the automotive industry, these tests on the finished part are the absolute benchmark in terms of hydrolysis resistance,” explains Dr. Claudia Dähling, PBT material expert at LANXESS. “In our very strict internal specimen tests, based on the USCAR specification procedure, the new compounds achieve Class 4 or even Class 5, the two highest grading. This makes them the material of choice for PBT components, which have to work reliably under the influence of humidity and temperature throughout their service life.”

Endurance test for PBT compounds

In the SAE/USCAR long-term tests, a finished part is exposed to temperatures from -40 °C to +175 °C (Class 5) at relative air humidity of up to 100 percent in 48-hour cycles. The finished parts then undergo various function tests. The test process is extremely demanding, as heat and humidity affect aging more intensely when the two factors are combined.

Further XHR products in development

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As well as its outstanding hydrolysis resistance, Pocan XHR has other benefits. “For example, its elongation properties and high resistance to alternating temperatures make it suitable for overmolding of metal parts that are exposed to temperature fluctuations,” Dähling relates. Further strengths are its improved chemical resistance to substances such as caustic soda, and a much greater long-term temperature stability than standard PBT types, even in dry environments.

Excellent process ability

In other respects, with its properties, Pocan XHR is similar to the hydrolysis-stabilised PBT compounds in the Pocan HR series that have become established in many series production applications. In particular, the balanced processing characteristics so valued by the market have been transferred to the new XHR generation. Dähling: “For instance, the melt viscosity at injection-molding temperatures customary for PBT remains constant for longer, ensuring a reliable production process with a wide processing window.” Furthermore, flow ability is up to 35 percent higher compared with PBT standard products.[/vc_column_text][/vc_column][/vc_row]