Engines and exhaust pipes in machines, plants and vehicle technology emit enormous heat due to hot exhaust gases. By means of metallic insulation for engines and exhaust pipes, the radiated heat can be optimally reduced. In addition, legal standards such as EURO 6 or Tier 4 can be complied with.
Metallic insulation consists of a high-temperature resistant insulation and a very thin stainless steel foil, which is applied to the desired contour of your components by means of an embossing tool. The excellent insulating properties of metallic insulation thus reduce heat loss to a minimum and maintain a constant system temperature in machinery, equipment and vehicles. At the same time, the metallic insulation for engines and exhaust pipes provides optimum protection against contact during continuous operation.
In addition, surrounding sensitive components are protected from radiated heat and premature wear. In addition to reducing radiated heat, the metallic insulation must also be reliable in the event of permanent weathering, vibrations, high exhaust gas temperatures and mechanical stresses.
With our many years of experience in insulation technology, we develop and produce customized metallic insulation for engines and exhaust pipes. We have specialized in particular in integral insulation. NovaNox® integral insulation has very good insulating properties and reduces radiated heat of up to +1,200°C to an extremely low level. Heat loss is prevented so that the system temperature in machines, systems and vehicles remains constant.
The integral insulation of NovaNox® is manufactured to fit the contour using an embossing tool. In the process, the butt edges are tightly welded. As a result, the NovaNox® integral insulation fits tightly and precisely. The radiated heat is thus reduced to an absolute minimum and at the same time offers excellent protection against contact. We also supply customer-specific pipe systems, exhaust lines and silencers together with the integral insulation as a ready-to-install solution.
In addition, surrounding sensitive components are ideally protected from radiated heat and premature wear. Thanks to the individual cut, connection points, brackets or sensors also remain accessible.