Plastic materials play an important pace making role for technological development. Due to their low weight, optimized sliding properties, high abrasion resistance, dimensional stability and chemical resistance, they are superior to conventional materials even at high application temperatures.
Wind power, solar power, bioenergy, hydropower and also fuel cell technology: all of these play an essential role in the energy mix of the future. In what is predominantly still a young field of industry, many applications can only be realized using new materials.
In many areas of industry technical plastics play a vital role in improving the efficiency and competitiveness of customer applications. Lightweight, versatile plastics have a proven track record stretching back over many years in the processing and testing of semiconductor products.
Technical plastics contribute to making applications more efficient and competitive in many industrial areas. The aerospace industry places high demands on materials. The impressive properties of high-performance plastics include their low weight and fire behavior.
In many areas of industry, technical plastics play a vital role in improving the efficiency and competitive standing of customer applications. Lightweight, versatile plastics have a proven track record stretching back over many decades in the processing and packaging of foods.
Exist components and profiles made of thermoplastics which are designed to comply with the stringent demands of medical technology. The special demands imposed on these materials such as physiological safety are addressed by the outstanding properties of high temperature plastics.