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1
- #1
saplanti
Mechanical
- Nov 27, 2007
- 780
Dear Members,
Some time ago I launched the following thread;
"Flange Connection DN200-150# with Spiral Wound Gasket - Gasket Seating" with the shortcut:
I have found an invaluable paper (Bolt Preload Stress for ANSI Raised-Face Flanges Using Spiral-Wound Gaskets-Sealing Technology & Plant Leakage Reduction Series) in EPRI website which is supporting my claim, and I have provided the comment below from this paper for your information:
"It is unfortunate that the low pressure class (150-300) flexible-graphite filled gaskets, which require the highest bolt preload stresses to achieve near full compression, are matched up with the ANSI B16.5 flanges having the least ability to accommodate the higher bolt preload stresses.
This situation is a result of many of these gaskets being too stiff to meet the load-deflection requirements of ANSI B16.20. It is desirable for the manufacturer to work at bringing the load-deflection characteristics of these gaskets into conformance with the ANSI B16.20 requirements in the future so that a good technical case can be made to reduce the recommended preload stresses, or provide greater margin against leakage for the preload stresses recommended above."
In the same paper there was a report called "EDF PAPER: VARIABILITY IN COMPRESSION AND LEAK-TIGHTNESS CHARACTERISTICS OF SPIRALWOUND GASKETS", and this attachment had the following conclusion:
"The mechanical characteristics as well as the leak-tightness performance of spiral-wound gaskets have been found to contain a great deal of scatter. Temperature or pressure transients and time could significantly change the gasket sealing characteristics, perhaps further increasing the scattering. As such, it is very difficult to get clear variation laws from the tests we have done.
The mechanical characteristics are important to properly tension the gasketed joint, and they determine its future behavior during operations. For this reason, the amount of scatter encountered during the testing is unfortunate. Relative gasket leak-tightness is also an important value to know when the medium is corrosive, inflammable, explosive, or otherwise dangerous.
The results seem to indicate that asbestos-filled spiral-wound gaskets or those flexible graphite gaskets plus mica and used with standard flanges may not be the best gasket of choice for low pressure classes (150 and 300) as their bolt stress may be too low to obtain suitable gasket deflection and a good leak-tightness level under most circumstances. Flexible graphite-filled gaskets with an inner ring and compressed up to the full compression offer the best characteristics.".
I suggest everyone involves in the flange calculation and selection of gaskets to read this EPRI paper to get some deep understanding.
Kind regards,
Ibrahim Demir
Some time ago I launched the following thread;
"Flange Connection DN200-150# with Spiral Wound Gasket - Gasket Seating" with the shortcut:
I have found an invaluable paper (Bolt Preload Stress for ANSI Raised-Face Flanges Using Spiral-Wound Gaskets-Sealing Technology & Plant Leakage Reduction Series) in EPRI website which is supporting my claim, and I have provided the comment below from this paper for your information:
"It is unfortunate that the low pressure class (150-300) flexible-graphite filled gaskets, which require the highest bolt preload stresses to achieve near full compression, are matched up with the ANSI B16.5 flanges having the least ability to accommodate the higher bolt preload stresses.
This situation is a result of many of these gaskets being too stiff to meet the load-deflection requirements of ANSI B16.20. It is desirable for the manufacturer to work at bringing the load-deflection characteristics of these gaskets into conformance with the ANSI B16.20 requirements in the future so that a good technical case can be made to reduce the recommended preload stresses, or provide greater margin against leakage for the preload stresses recommended above."
In the same paper there was a report called "EDF PAPER: VARIABILITY IN COMPRESSION AND LEAK-TIGHTNESS CHARACTERISTICS OF SPIRALWOUND GASKETS", and this attachment had the following conclusion:
"The mechanical characteristics as well as the leak-tightness performance of spiral-wound gaskets have been found to contain a great deal of scatter. Temperature or pressure transients and time could significantly change the gasket sealing characteristics, perhaps further increasing the scattering. As such, it is very difficult to get clear variation laws from the tests we have done.
The mechanical characteristics are important to properly tension the gasketed joint, and they determine its future behavior during operations. For this reason, the amount of scatter encountered during the testing is unfortunate. Relative gasket leak-tightness is also an important value to know when the medium is corrosive, inflammable, explosive, or otherwise dangerous.
The results seem to indicate that asbestos-filled spiral-wound gaskets or those flexible graphite gaskets plus mica and used with standard flanges may not be the best gasket of choice for low pressure classes (150 and 300) as their bolt stress may be too low to obtain suitable gasket deflection and a good leak-tightness level under most circumstances. Flexible graphite-filled gaskets with an inner ring and compressed up to the full compression offer the best characteristics.".
I suggest everyone involves in the flange calculation and selection of gaskets to read this EPRI paper to get some deep understanding.
Kind regards,
Ibrahim Demir
