What is the design factor for SMAW when specifying the effective throat, and how does it compare to SAW, FCAW-G, MCAW, and GMAW?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Master the CSA Welded Steel Construction Metal Arc Welding W59 Inspector Level 1 Test with detailed study resources. Use extensive quizzes and in-depth materials to ensure success. Prepare effectively for your exam!

Multiple Choice

What is the design factor for SMAW when specifying the effective throat, and how does it compare to SAW, FCAW-G, MCAW, and GMAW?

When sizing a weld, the design factor used with the effective throat provides a safety margin to account for how reliably the process deposits material and how consistent the weld quality will be. For manual SMAW, there is more variability in deposition and potential defects, so a larger margin is used. That’s why the design factor for SMAW is 1.7.

The other processes listed—SAW, FCAW-G, MCAW, and GMAW—offer more consistent and controlled deposition, so a smaller margin is acceptable, at 1.5. In practice, this means if you calculate an throat of, say, 6 mm, you’d require 6 × 1.7 = 10.2 mm for SMAW, whereas for the other processes you’d need 6 × 1.5 = 9 mm.

What is the design factor for SMAW when specifying the effective throat, and how does it compare to SAW, FCAW-G, MCAW, and GMAW?

Master the CSA Welded Steel Construction Metal Arc Welding W59 Inspector Level 1 Test with detailed study resources. Use extensive quizzes and in-depth materials to ensure success. Prepare effectively for your exam!

What is the design factor for SMAW when specifying the effective throat, and how does it compare to SAW, FCAW-G, MCAW, and GMAW?

Get the latest from Examzify