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Silicon carbide has outstanding properties. It shows outstanding thermal conductivity as well as extremely high compression, tensile and flexural strengths.
Pressureless sintered silicon carbide is almost universally corrosion resistant.
Impervious graphite is widely used for chemical applications, due to its excellent thermal conductivity, corrosion resistance and mechanical strength.
Mersen offers the widest range of impervious graphite materials on the market, whether isostatic or extruded graphite grades.
CORRESIC® silicon carbide block heat exchangers are adapted to the heating, cooling, evaporation, condensation and absorption of highly corrosive and/or oxidizing chemicals. This design is one of the most versatile type of silicon carbide heat exchangers.
The graphite plate heat exchangers are adapted to the heating and cooling of highly corrosive chemicals. This design is the most compact and most efficient type of impervious graphite heat exchangers.
CORRESIC® Silicon carbide shell and tube heat exchangers are adapted to the cooling, condensation, heating, evaporation and absorption of highly corrosive chemicals.
Polybloc® graphite block heat exchangers are adapted to the heating, cooling, evaporation, condensation and absorption of highly corrosive liquid chemicals. This design is one of the most versatile type of impervious graphite heat exchangers.
Polytube graphite shell and tube heat exchangers are suitable for heating, cooling, condensing, evaporating or absorbing large flow rates of ultra-corrosive chemicals. This type of graphite heat exchanger is particularly versatile and all conceivable applications are possible.
Annular groove graphite heat exchangers (interchangers) are especially adapted to the heating or cooling of ultra-corrosive liquid chemicals.