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Sizing Up Seismic-Friendly Filler Metals
Q: I am confused about the various specifications for seismic applications. How can I know if I have the right filler metal for the job?
A: Your confusion is understandable. The documents overseeing seismic applications are ongoing and constantly revised. To fully understand this issue, we need to go back to 1994, when an earthquake in Northridge, Calif., caused devastating damage to buildings in the area. This prompted the Federal Emergency Management Agency (FEMA) to fund a variety of investigations into problems related to welded steel moment-frame connections. The resulting document, "Recommended Specifications and Quality Assurance Guidelines for Steel Moment-Frame Construction for Seismic Applications" (FEMA 353), dealt with overall structural design, connection design and details, materials, workmanship, and inspection.
While the FEMA document was being drafted, the American Institute of Steel Construction (AISC) and the American Welding Society (AWS) began to evaluate their respective specifications and codes to incorporate the results of the FEMA studies. The AISC publication focuses on the design of structures intended to resist seismically induced loads. The AWS document, AWS D1.8/D1.8M, "Structural Welding Code-Seismic Supplement," focuses on welding procedures, materials testing, and inspection. With lead-times of three to four years not uncommon in the building construction field, much of this specification, published in 2005, is just coming into practice today.
For all work done under D1.8, filler metals must meet the standard AWS A5.XX requirements. Demand-critical welds must also meet a minimum Charpy V-notch requirement of 40 ft.-lbs. (54 joules) at 70 degrees F, and a minimum strength level for both a high- and low-heat input test per Annex A of the AWS D1.8/D1.8M:2005 specification.
Filler metals must be capable of depositing weld metal with a maximum diffusible hydrogen content of 16 mL per 100 grams of deposited weld metal after a minimum exposure time of 72 hours at 80 degrees F / 80 percent relative humidity. When flux-cored filler metals are combined with different flux-cored filler metals or filler metals deposited by other processes, the resulting combination must be checked to ensure that the minimum required Charpy V-notch is obtained and the welds meet the more stringent requirements. This is known as intermix testing.Filler metal manufacturers diligently test their products to ensure that they meet the requirements of D1.8. If you have questions about your filler metal, contact the manufacturer to verify what testing has been done.
This article originally appeared in The WELDER magazine.
It is reprinted here with permission of the Fabricators & Manufacturers Association, Intl.
Posted in Filler Metals