PLASTICS FOR A SAFE AND RELIABLE ENERGY SUPPLY
PLASTMASS™ PET, PEEK, PEI, PPS, PSU
Our high performance plastics are ideal to reduce the wear and weight of moving/sliding parts. They are also particularly suitable for components that work under extreme conditions.
Our ultra-/high-molecular plastics are ideal for lining, sliding guides and the protection of metallic parts.
The peculiarity of this elastomer is its lifespan, which is up to 20 times longer (depending on the load) than that of conventional rubber materials. The plastic can be manufactured with a Shore A hardness of 55, 60, 65, 70, 75, 80, 85 and 90 units.
YOUR BENEFITS USING OUR PLASTICS
Minimal downtime and higher productivity thanks to the long service life of our plastics in your tools and equipment
Achieve high hygiene standards as they are easy to clean and allow the use of different cleaning agents
Very high product safety thanks to the durability and reliability of plastics
Best price performance ratio
Long service life, excellent quality and a high degree of product safety
Long lifetime of PLASTMASS™ polymer parts
High demands on quality checks of the finished parts
More stable and wear resistant parts with less weight
Heat and liquid resistant materials up to 300°C
AREAS OF APPLICATION
With our PLASTMASS™ PP (Polypropylen) material we are able to manufacture durable solar collector trays which have the best price-performance ratio. The UV-resistant polymer tray can be attached at the roof, floor and wall by using various rail systems. Our trays are characterized by their particularly light weight. The material used for the trays has a long lifetime and is very resistant against weather effects.
The wheel blades of the Pelton wheel in a small water turbine have a double shell shape and consist of an extremely abrasion-resistant PLASTMASS™ material, so that a very good efficiency and a maintenance-free lifespan of many years is achieved. Also other types of wheels are manufactured with our PLASTMASS™ material.
Our heat and liquid resistant PLASTMASS™ materials (up to 300°C) are ideal for sustainable geothermal systems. The materials are very durable and ensure smooth operations. Our robust materials are used for: plenums and cases, valve balls, tubes, mounting devices
WIND POWER PLANTS
Our durable high-performance plastics are particularly suitable for sustainable energy generation through wind power. The weather-resistant, corrosion-free and maintenance-free prefabricated parts made of PLASTMASS™ materials make a significant contribution to operational efficiency. In particular, our plain bearings and linear guides with maintenance-free dry running, designed for high loads, guarantee smooth operation and lowering the operating costs. PLASTMASS™ PPS (Polyphenylene sulfide) plain bearings have significantly lower wear values than bronze bearings and are more environmentally friendly, as they work in dry running without lubrication. In addition, our plain bearings do not corrode.
In 2017, our materials received approval for use in nuclear areas. For this purpose, the Joint Institute for Nuclear Research (JINR) of the SKOLKOVO Foundation tested our rods for nuclear applications. Three different modification types of our PLASTMASS™ plastic were subjected to intensive tests. In addition, our PLASTMASS™ plastic rods have been tested for use in packaging containers. Our materials have successfully passed the extensive tests with different radiation modes. Our PLASTMASS™ plastics are therefore approved for use in nuclear applications. Our plastics are manufactured under high quality standards in our factory.
Our radiation-resistant high-performance plastics, which are used as seals for flange connections of containers, are suitable as a solution to this problem. Due to the longer lifespan of our plastics under permanent ionizing radiation, the physical and mechanical properties of seals are not impaired in the long term. This method is one of the best known and most effective solids for neutron protection. No post-installation maintenance is required and it is the second cheapest price after liquid protection. It also has lower cost than other types of solid-state protection with the same radiation resistance. It is possible to control the degree of delay by changing the concentration of boron atoms in the plastic material.