Create a spark to reduce labor, welding costs

For 70 years, factory-made, wrought butt-welding fittings were the choice for pressure piping systems, in shapes defined by ASME B16.9. However, in recent years, new metal forming processes have enabled the development of wrought socket-welding fittings.


For 70 years, factory-made, wrought butt-welding fittings were the choice for pressure piping systems, in shapes defined by ASME B16.9 . However, in recent years, new metal forming processes have enabled the development of wrought socket-welding fittings. In 1996, those fittings were standardized in “MSS Standard Practice SP-119, Belled End Socket Welding Fittings, Stainless Steel and Copper Nickel” %%MDASSML%% more familiarly known as “belled-end pipe fittings.” The bodies of these are essentially the same as those in ASME B16.9, but the welding skill, materials and labor time to join them are far less extensive.

According to the American Welding Society and the Bureau of Export Administration, in their May 2002 report entitled Welding Related Expenditures, Investments and Productivity Measurement in U.S. Manufacturing, Construction and Mining Industries , labor typically accounts for 76% of total welding cost. Given the amount of welding involved in a typical piping system, simplifying the process can amount to considerable savings.

This simple change in pipe fitting specification can save 50% to 70% of the labor time needed in joint preparation and welding. Multiply that by each joint throughout the piping system, and this can amount to huge savings to the plant budget. And while significant economic advantages are realized, no sacrifice is made in piping system performance %%MDASSML%% and in some cases system reliability is improved.

Easing the fit and the weld

Cold-formed, wrought belled-end pipe fittings have expanded ends, creating a socket to receive the connecting pipe. This design allows them to be joined by fillet welds rather than the butt welds needed to join traditional pipe fittings. Both the type of weld and the shape of the parts make good welds easier to achieve.

Fillet welds can be done four to seven times faster and require fewer steps than butt welds. Much less joint preparation goes into a fillet weld, with no machining of parts onsite needed to ensure fit. Butt-welded joints require both pieces to be beveled at the point of installation for a precise fit of root geometry.

Pre-weld fit time is virtually eliminated with belled-end fittings, where butt-welded joints take a significant amount of time to fit. Belled-end fittings joined with fillet welds are more forgiving: where the shape and alignment of the two pieces may vary just a slight amount, welds can still be done successfully. With butt-welding, “out of round” situations, misalignment and mismatched wall thicknesses can cause problems in achieving a good weld.

In butt-welding, an interior backing ring may sometimes be needed to support the welded seam and provide a good surface on which to weld the two beveled edges together. The backing ring is tacked in place, and then weld material is deposited into the groove created by the two machined parts. Where a backing ring is not used, the two parts still must be fit into a jig and tack-weld before being final-welded into place. Joining belled-end fittings with fillet welds eliminates these preliminary steps. In addition, back-side weld joint gas inerting is often required for butt joints but is seldom needed for socket welds.

The ability to use a fillet weld at a lap joint between the fitting and the pipe instead of a butt weld also reduces the chance for burn through %%MDASSML%% a contributor to internal deformities such as craters, fissures and icicles that can affect process flow. Fillet welds are much easier to do and much less expensive to inspect. Most fillet welds are accomplished in one root pass and one finish pass, whereas comparable strength butt-welded joints require multiple passes. Fillet welds are inspected visually for size and slope, but butt welds are inspected radiographically in order to ensure proper joint preparation and root pass penetration.

Belled-end fittings perform

Today, B31.3, the piping designer’s most significant specification, recognizes the MSS SP119 fillet weld fittings as a cost-reducing alternative to standard butt welding fittings. The current edition of ASME B31 Code for Pressure Piping lays out design requirements for effective, safe and insurable systems. B31.3 Process Piping is “piping typically found in petroleum refineries, chemical, pharmaceutical, textile, paper, semiconductor and cryogenic plants, and related processing plants and terminals.”

But how does performance stack up? Fillet welds in themselves are strong, reliable joints; in piping systems using belled-end pipe fittings, the performance meets or exceeds standard pipe fittings. The fittings provide the same pressure and temperature limits as the corresponding butt-weld fittings. Manufacturers’ design-proof burst testing confirms that MSS-SP119 fittings have burst capacities matching those of ASME B16.9 rated butt-welded fittings.

The fillet-welded joint is stronger than the pipe alone. The cold-formed wrought fittings also better match the wall thicknesses of piping systems than cast or forged fittings, which tend to be rigid and oversized. That properly enables systems with belled-end fittings to flex more uniformly, distributing the stress into the sidewalls rather than the joints. This extends system life where fatigue is a concern.

U.S. Navy testing of the fittings discovered that the fitting bell contributed a significant reinforcement value to elbows. In fatigue testing of angular displacement large enough to produce B16.9 elbow failures in 1,000 cycles, belled-end elbow fittings lasted two to four times longer, the testing found.

Belled end fittings have Piping Code recognition: the current standard MSS SP-119 is referenced by B31.3, Code for Chemical Piping. Standard Practice SP-119 currently is being revised to include belled-end fittings in more materials and with thicker walls, broadening the application possibilities.

Belled end fittings can be used with standard wall and light wall pipe, and commonly are supplied in several alloys of stainless steel, copper nickel, titanium and aluminum. In today’s economy, labor cost outweighs component cost; even where special materials are used, installation and performance issues still make belled-end fittings a preferred choice.

Consideration of welding requirements during piping design will yield impressive benefits. Using belled-end fittings can help a manufacturing facility cut welding labor costs, reduce inspection costs and welding rework and build stronger piping systems.

Author Information

Ray Stubbs has been in the welded piping industry for more than 30 years, serving since 1984 as a founding partner and vice president of sales at Bestweld Inc. A producer of stainless steel and higher nickel alloy welding fittings for high-pressure, high-temperature and severe corrosion applications, Bestweld is a U.S. Navy ship parts supplier. Bestweld was named 2004 Supplier of the Year by Northrop Grumman Newport News and Northrop Grumman Ship Systems.

Use of fittings can help combat the loss of skilled welders

Choosing belled-end pipe fittings also can help plants address a major problem in industry today: the lack of highly skilled welders. Besides enabling faster production of good joints, belled-end pipe fittings benefit plant engineering departments because less advanced welding skills are needed than for comparable strength, butt-welded systems.

As experienced welders retire, a broad range of welding knowledge is leaving the workplace. New graduates show low interest in welding, while technology creates more uses for the skill. In a May 2002 survey by the American Welding Society and The Bureau of Export Administration, almost 50% of companies studied said the numbers of their welding trainees were not adequate to meet replacement requirements. More than 40% of heavy industrial manufacturing firms indicated that a shortage of qualified welders affects productivity either “moderately” or “extensively,” and approximately 30% of the firms in the automotive and construction industrial sectors indicated similar levels of impact, the survey indicated.

Lack of skilled welders also can inhibit manufacturing expansion plans, affecting the economy as a whole.

Welders with advanced skills command premium wages. According to an August 2006 Wall Street Journal report, graduates of welding technical programs can receive annual salaries in excess of $50,000. By specifying belled-end pipe fittings, the productivity of welding professionals, whether on staff or outside, can be maximized and costs can be minimized.

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