Why Gaskets Are Used ?
Gasket are used to create a static seal between two stationary members of a mechanical assembly and to maintain that seal under operating conditions which may vary dependent upon changes in pressures and temperatures. If it were possible to have perfectly mated flanges and if it were possible to maintain an intimate contact of these perfectly mated flanges throughout the extremes of operating conditions; a gasket would not be required. This is virtually an impossibility either because of:
The size of the vessel and/or flanges
The difficulty in maintaining such extremely smooth flange finishes during handling and assembly
Corrosion and erosion of the flange surfaces during operations
As a consequence, relatively inexpensive gaskets are used to provide the sealing element in these mechanical assemblies. In most cases, the gasket provides a seal by external forces flowing the gasket material into the imperfections between the mating surfaces. It follows then that in a properly designed gasket closure, three major considerations must be taken into account in order for a satisfactory seal to be achieved:
1. Sufficient force must be available to initially seat the gasket. Stating this another way, adequate means must be provided to flow the gasket into imperfections in the gasket seating surfaces.
2. Sufficient forces must be available to maintain a residual stress on the gasket under operating conditions to ensure that the gasket will be in intimate contact with the gasket seating surfaces to prevent blow-by or leakage.
3. The selection of the gasket material must be such that it will withstand the pressures exerted against the gasket, satisfactorily resist the entire temperature range to which the closure will be exposed and withstand corrosive attack of the confined medium.