Cnuk:
Generally you will not find anyone cutting actual IF connections any longer. The IF threadform was replaced by API in 1968 with the NC threadform. The real IF threadform has a a V065 0.015 inch thread radius and was very prone to fatigue failures. The NC connections have a V038R thread form and a 0.038 inch root radius, which is much more fatigue resistant. Out of the non-proprietary connections on the market today, the NC connections are considered superior to FH and REG. Both FH and REG have the V050 thread form (REG also has V040 on smaller sizes), which is a 0.025 inch thread root radius (worse for fatigue than NC). When you look specifically at 8 inch collars, your choice is typically NC56 vs 6 5/8 REG. Studies have shown the NC56 to be far superior in terms of fatigue performance compared with the 6 5/8 REG for two reasons. First, the thread root radius is larger which lowers the stress concentration and second, the 6 5/8 REG has a 2 inch per foot taper rather than a 3 inch per foot taper. This is critical because the vast majority of failures on larger collars occur in the box. The 2 inch taper on the 6 5/8 REG connection means much less cross-sectional area in the critical area at the back of the box (where most fatigue failures in boxes originate). When taken together, this can mean a 3 - 10 fold increase in fatigue life when choosing the NC56 over the 6 5/8 REG. You can read “Use NC56 Connections on 8? Drill Collars and Cut 1?or 3/4? Pin Stress Relief Grooves on Rotated BHA Connections NC38 and Larger”, IADC/SPE 87191, 2004 for more information. In terms of torsional capacity and tensile capacity, I think the different connection types you mention are comparable size for size. Down in the lower BHA where most connections are run in compression (may or may not be bockled depending on hole inclination), pin neck tensile capacity is generally not an issue. Torque is also the lowest in this region, so torsional capacity is generally not needed in excess of the API recommended MUT (60% of the torstional strength of the connection) unless you are underreaming with a bullnose and rotating at a high RPM. On the whole (not counting any proprietary connections like XT, HT, DSTJ, WT, TM2, etc.) NC connections will have superior fatigue performance and relatively equivalent tension and torsional performance. As far as IF goes, a lot of orders are still placed for "IF" and "IF" is still stamped on connections, but 99.9% of the time, I would bet the connection is actually the NC equivalent. One other point of fact: you can actually screw a true IF into a NC of the same size. Example: NC38 will screw together with 3 1/2 IF.
The DS1(TM) Standard (sponsored by more than 40 companies around the world - operators, manufacturers, drilling contractors, and inspection companies) does not reference any of the NS manuals in any way. The Third Edition of DS-1(TM) is three separate volumes. Volume 1 covers manufacturing and inspection of new equipment (Drilling Tubular Product Specification), Volume 2 covers Drill Stem Design and Operation, and Volume 3 covers Drill Stem Inspection (used equipment). If you want a true comparison of DS-1(TM), NS-X, and API / ISO, decide for yourself by trying to read and use each of them. Which is easiest to read, understand, implement, and find the information you are looking for? Which has the most technological advances consistently and is the most up to date?
Mr. Sticky:
The connection name 4 1/2 IF derived from being welded to 4 1/2 inch externally upset (EU) drill pipe tubes that were internally flush (IF).
P.S. What actually weighs 19.50 pounds per foot on 5 inch 19.5 ppf drill pipe?
