Filter CategoriesALLEDrive technologyConstruction machineryClassic carsSealing technologyMaterials handlingSliding technologyLifting technologyTimber industryMechanical engineeringMotor sportsSpecial vehiclesWind power technology With its operating temperature of up to 250 °C, STS 2050 is the ideal ceramic ContiRoll press lining to optimise the productivity of your plant. Costly downtimes can be avoided through a better belt control, an extremely long service life and maximum temperature resistance. We offer a greatly prolonged service life and a high wear resistance. Your benefit is the trouble-free and highly efficient operation. A tried and trusted friction material from the family of resin-bonded fibreglass- and mineral powder-reinforced materials. It is characterised by high thermal reserves for coefficients of friction and structural strength as well as a high material strength. It thus allows an optimum screw fitting and a long service life and is resistant to all common belt lubricating oils. Finally, STS2010 offers a medium to high coefficient of friction in both dry and oily conditions and is suitable for static and dynamic applications. The good mechanical properties and temperature resistance make STS8801 the ideal material for drum brake applications in motor sports. In the group of sealing materials, STS7999 stands for excellent sliding and sealing properties thanks to its low coefficient of friction. Its graphite base makes it a hard sliding material and the ideal choice for sealing rotary kilns and rotary drum furnaces, for example. It has good self-lubricating properties and a very high temperature resistance. It safely retains the necessary properties, even at operating temperatures of up to 800 °C. Good comfort and wear properties are important when drum brake linings are used, for example in paper machines. STS5961 with its semi-elastic material structure and medium coefficient of friction is ideal for this sector of the mechanical engineering industry. This product from the group of sliding materials is made of a resin-bonded, metal-free material, thus offering endless opportunities for a low-friction, stable application. In addition to the very low coefficient of friction, a good wear resistance in combination with a high load-bearing capacity and good temperature resistance round off STS4200’s profile. It is therefore suitable for vibration damper brakes in flexible clutches and sliding elements, for example chain and linear guides. In modern drive and sealing technology, good sliding properties and the lowest possible coefficient of friction are crucial for an economic operation of plants. STS4100 is thus an ideal choice here. It is suitable for rotary kiln seals and sliding elements such as chain guides. A good wear resistance and high mechanical strength are further convincing product properties. STS4088 is the logical further development of the 4042 material. With an even higher coefficient of friction and greatly reduced wear, it is the optimum product for modern wind power technology. Effective for yaw brakes and just as quiet as its predecessor, it makes for much longer service lives. This means it is ideal for wind turbines in populated locations. STS5940 is a universal friction material with good retardation properties for high mechanical stresses in mechanical engineering. The rubber-bonded, fibre-reinforced material with its semi-flexible structure is particularly suitable for use in sensitive environments, for example to specifically avoid flying sparks. These properties permit a very good comfort level, for example in industrial belt brakes. Our STS4020 material contains rubber and is very temperature-stable with a high structural strength. Its high static and dynamic coefficients of friction mean that it can be used in heavily stressed clutches. It is also ideal for riveting and contributes to an efficient use of construction machinery and special vehicles. Very high coefficients of friction are often important in drive technology. STS5068 is an optimum partner for economical drive technologies. Its metal-free and semi-elastic material structure make it the perfect material for use in electromechanical brakes and clutches. Of the various friction materials, our resin-bonded, metal-free material STS4009 is the ideal platform for use in safety clutches. It enables a high and at the same time stable coefficient of friction on the basis of a very strong material structure as well as a high compressive and mechanical strength. This material thus ensures a very reliable and operationally safe static use, even under high loads. A very good temperature resistance is essential in motor sports, particularly in the higher performance classes. Its good mechanical properties make STS8009 the ideal material for motor sports. What is important in modern wind power technology is economic efficiency through long service lives and high coefficients of friction. Our STS4042 material is the perfect choice for these cutting-edge plants. It is very quiet during operation and has a long service life, thus making a big contribution to efficiency. The product also works in yaw brakes. STS4061 is a material with a very wide range of applications in mechanical engineering. Its outstanding properties are its dimensional stability, high mechanical stability and independent direction of stress. The material is gentle on the mating material and thus very wear-resistant. It is also a convincing choice on account of the minor differences between static and dynamic coefficients of friction. STS4065 deserves the title of ‘all-rounder’ in our product range. With its high coefficient of friction, it is ideal for use in dynamic industrial brakes and clutches. This material is an indispensable component in mechanical engineering. Extreme operational demands often occur in drive and lifting technology as well as mechanical engineering. This is why the best materials are needed. STS4590 has a high coefficient of friction and is thus suitable for use in disc brake linings, for example in crane brakes and rotor brakes in wind turbines. It can also be used in the field of sintered friction linings. STS5069 has a finer material structure, making it a practical alternative to STS5068 in drive technology. In addition, the high mechanical strength allows an economic use in electromechanical brakes and clutches. STS5086 is characterised by the same properties as STS5069. However, it has been optimised by greatly improved wear properties. STS5152 is also one of our all-rounders. With its metal-containing, semi-flexible material structure it covers a wide spectrum of both industrial and vehicle technology applications. Its high coefficient of friction, good temperature resistance and very good wear behaviour allow its use in cranes, lifts or vehicles, for example. Our industrial ceramics drum lining STS4000 guarantees minimum downtimes and thus a high plant availability. You profit from maximum belt utilisation and a simultaneous longer belt life since the belt tension is reduced. A high resistance to weathering as well as to thermal, mechanical and chemical influences ensure the trouble-free operation and maximum conveying efficiency of your plant. This makes STS4000 the ideal overall solution for belt conveyors. Organically bonded, high-strength drive lining, thus no damage to the belt from breakouts. STS2012 is the logical further development of the tried and trusted STS2010 and is also characterised by a high thermal fatigue strength. Up to 210 °C means a new record for resin-bonded drive linings. STS2012 is resistant to all approved belt oils, and its excellent nominal coefficient of friction of µ 0.12 under oil guarantees high belt speeds and stable running without slippage.
Filter CategoriesALLEDrive technologyConstruction machineryClassic carsSealing technologyMaterials handlingSliding technologyLifting technologyTimber industryMechanical engineeringMotor sportsSpecial vehiclesWind power technology
