Passive fire protection is primarily used to maintain the functionality of structures, pipelines and containers for a defined period of time, since at temperatures of approx. 550°C the critical core temperature is reached and structures are at risk of collapse. In the event of a fire, the flame retardant material foams up, thus limiting the temperature development in the respective critical range over time. This saves important time for rescue and evacuation measures.
Pressure ratio | 75:1 |
Output per cycle | 275 ccm |
Max. output (at 60 cycles/min): | 16.5 l/min |
Max. operating pressure | 450 bar |
Order number | 0663691 |
Automotive
Fire protection
Apparatus and mechanical engineering
Steel Construction
Offshore industry
General Industry
Passive fire protection is primarily used to maintain the functionality of structures, pipelines and containers for a defined period of time, since at temperatures of approx. 550°C the critical core temperature is reached and structures are at risk of collapse. In the event of a fire, the flame retardant material foams up, thus limiting the temperature development in the respective critical range over time. This saves important time for rescue and evacuation measures.
Pressure ratio | 75:1 |
Output per cycle | 275 ccm |
Max. output (at 60 cycles/min): | 16.5 l/min |
Max. operating pressure | 450 bar |
Order number | 0663691 |
Automotive
Fire protection
Apparatus and mechanical engineering
Steel Construction
Offshore industry
General Industry