microFlon® – Gasket Sheets with functional fillers
Products in the microFlon® range consist of virgin or modified PTFE in combination with inorganic fillers. Depending on the application, the products are filled with micro hollow glass bubbles, silicon dioxide or barium sulphate. As a result, the gasket sheets have very good cold flow resistance and good relaxation properties, even at elevated temperatures. This leads to a very high diffusion density and a low leakage rate. They are ideally suited for use in the chemical and petrochemical sector.
microFlon® BLUE
Show ProductmicroFlon® BLUE
microFlon PTFE gasket sheets, filled with micro hollow glass bubbles
microFlon® BLUE is the new generation of microcellular structured, glass-filled PTFE sealing materials.
The very homogeneous distribution of the micro hollow glass bubbles used gives the material a uniform density with high adaptability.
microFlon® BLUE also shows its strengths at elevated temperatures. Less flow and higher stability lead to secure sealed joints.
microFlon® fawn
microFlon PTFE gasket sheet, filled with silicon dioxide
microFlon® fawn is the universal PTFE seal for applications in the chemical industry.
Finely dispersed silicate fillers give microFlon® fawn very good cold flow resistance and good relaxation properties, even at elevated temperatures.
Due to its very diffusion-tight and uniform structure, microFlon® fawn is the ideal seal for high demands on lowest emissions. Even at low installation surface pressures, the gasket material offers reliable safety and the lowest leakage rates.
microFlon® fawn
Show ProductmicroFlon® barite
Show ProductmicroFlon® barite
microFlon PTFE gasket sheets filled with barium sulphate
microFlon® barite is a sintered PTFE gasket with highly resistant filler, mainly for applications in the chemical industry.
Finely dispersed barium sulphate gives microFlon® barite improved cold flow resistance and good relaxation properties.
Due to the high chemical resistance of the filler, microFlon® barite can be used in contact with a variety of aggressive media.