If you work in pipeline integrity, you’ve likely seen the file name: API_RP_1110.pdf . It usually sits in a folder alongside dozens of other standards—API 1160, ASME B31.8, DOT 192.
Why does this matter? Because mills produce pipe with a minus tolerance (e.g., 0.01" thinner than spec). If you calculate your test pressure using the nominal thickness, you might accidentally overshoot the yield strength of the actual pipe by 3-4%. Api Rp 1110.pdf
RP 1110 is the referee that stops the game before that happens. It defines the strict boundary (usually 90-95% of SMYS) that ensures the pipe springs back to its original shape. If you want to get into a heated argument in a control room, ask: "Why can't we just test with compressed air? It’s cheaper." If you work in pipeline integrity, you’ve likely
But in the era of high-frequency pressure cycling (thanks to renewable energy intermittency and batch switching), the 30-year-old assumptions in RP 1110 are being stress-tested like never before. Because mills produce pipe with a minus tolerance (e
