GERMAN chemicals firm Lanxess has been offering the services of its Polymer Testing Centre to external customers, and recently, it has also integrated the centre, which was previously part of the High Performance Elastomers business unit into its Innovation & Technology group function, as it puts increased importance on polymer analysis.
The organisational unit coordinates all of the Lanxess group’s research and development activities. The Leverkusen-based rubber experts there can offer more than the standard measuring of abrasion resistance, shore hardness, viscosity, tensile strength and fabric bonding. They also have sophisticated physical methods for assessing the molecular microstructure of the vulcanisates, which can provide crucial information for optimising products. The complete current portfolio of the Polymer Testing Centre has been brought together in a comprehensive brochure that can be downloaded at www.polymertesting.lanxess.com.
“Cutting-edge rubber formulations are extremely complex multi-component systems whose development requires a great deal of experience,” says Professor Claus Wrana, head of the Lanxess Polymer Testing Laboratory in Leverkusen, Germany. “Over the past few decades, polymer physics has developed a series of methods that enable us to explain the properties of rubber products by looking at the molecular structure of their components. As a major rubber supplier and developer with strong research credentials, Lanxess has played a big part in that. We not only use this expertise internally for the further development of our own rubbers, we are also happy to pass it on to the rest of the industry,” he furthered.
The Polymer Testing Centre is based in building K10 of the Chempark Leverkusen site. Its customers primarily include SMEs in the rubber industry that commission Professor Wrana’s team with manufacturing and examining material samples for them. The equipment in his laboratory is certainly extensive. It comprises a series of mixers for manufacturing test mixtures on a laboratory (85 ml) to technical (90 l) scale and moulds and extruders for the compression moulding of specimens. It is also possible to follow the vulcanisation process using a moving die rheometer (MDR) or a rubber process analyser (RPA). The most important rubber chemicals for manufacturing mixtures can also be found in the warehouse.
More complex methods provided by the Polymer Testing Laboratory include creating master curves for characterising the dynamic behaviour of a rubber sample – and that over a period of up to 20 decades. This enables valid statements to be made about the distribution of molecular mass, branching structure and crosslinking density of a polymer, for example. In Leverkusen, the latter can also be assessed by observing the non-linear stress-strain-behaviour of the vulcanisates using state-of-the-art modeling processes. Using measurements of the amplitude dependence of the dynamic moduli of shear or elasticity, for instance, Lanxess physicists can also give assessments of the nature of filler-filler or filler-polymer interaction in the rubber, which correlates with the filler distribution in the mould, among other things.
With an advanced lab information management system, all of the preparation steps and measurements can be followed online. The close networking of the department’s global sites enables material samples manufactured in China, for example, to be examined in Leverkusen – and vice versa, wherever the resources are available. This ensures jobs are completed quickly. The chemical firm’s experts also assist customers when it comes to evaluating and interpreting the results and help them with targeted further development based on current scientific findings.