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ASME BPVC IX · QW-250 Series · Procedure Qualification

ASME IX Essential Variables by Welding Process

ASME Section IX defines three categories of welding variables: essential, supplementary essential, and nonessential. Essential variables — if changed beyond the qualified range — require a new procedure qualification record (PQR). Supplementary essential variables become additional essential variables when impact testing is required by the construction code.

Key distinction: AWS D1.1 uses a single list of essential variables in Table 6.6 that applies across all processes. ASME IX assigns different variable classifications per welding process — a variable that is essential for SMAW (QW-253) may be nonessential for GTAW (QW-256). Always check the correct QW-250 table for your specific process.

The Three Variable Categories

ASME IX Article IV (QW-400 series) defines all welding data variables. The QW-250 series tables then classify each variable as essential, supplementary essential, or nonessential for each welding process. Understanding this classification is fundamental to managing procedure qualifications efficiently.

Essential variables (QW-251.2) are parameters that, if changed beyond the range qualified by the PQR, require re-qualification with a new test coupon. Examples include base metal P-number, filler metal F-number, welding process, and thickness range. These apply to every procedure regardless of the application.

Supplementary essential variables (QW-251.3) are parameters that become essential only when the referencing construction code requires impact testing. When impact testing is not required, these variables are treated as nonessential. This dual classification is unique to ASME IX — neither D1.1 nor API 1104 has an equivalent concept.

Nonessential variables (QW-251.4) can be changed in the WPS without re-qualification. The WPS must still document them, but changing them does not invalidate the PQR. Examples include joint design changes, stringer-to-weave bead changes, and electrode diameter changes within a group.

Essential Variable Tables by Process

Select a welding process to view its variable classifications per the QW-250 series. Each table shows the most important variables that fabricators encounter during procedure qualification. The complete tables are in ASME BPVC IX Article IV.

SMAW — QW-253
CategoryParagraphBrief of VariablesEssentialSupp. EssentialNonessential
JointsQW-402.1Groove design change
JointsQW-402.4Deletion of backing
JointsQW-402.10Root spacing change
Base MetalsQW-403.5Group Number change
Base MetalsQW-403.8Thickness qualified change
Base MetalsQW-403.9Pass > 1/2 in. (13 mm)
Base MetalsQW-403.11P-Number change
Filler MetalsQW-404.4F-Number change
Filler MetalsQW-404.5A-Number change
Filler MetalsQW-404.12Classification change
Filler MetalsQW-404.30Weld deposit thickness change
Filler MetalsQW-404.33Classification within SFA spec
PreheatQW-406.1Decrease > 100°F (55°C)
PreheatQW-406.2Preheat maintenance change
PreheatQW-406.3Increase > 100°F interpass
PWHTQW-407.1PWHT change
PWHTQW-407.2PWHT time and temperature range change
ElectricalQW-409.1Heat input increase
ElectricalQW-409.4Current or polarity change
ElectricalQW-409.8I&E range change
ElectricalQW-409.30Current or polarity change
TechniqueQW-410.1String/weave change
TechniqueQW-410.5Method of cleaning change
TechniqueQW-410.6Method of back gouge change
TechniqueQW-410.9Multi to single pass per side
TechniqueQW-410.25Manual or automatic change
TechniqueQW-410.26Peening
TechniqueQW-410.64Use of thermal processes
TechniqueQW-410.87Multi to single pass per side
TechniqueQW-410.92Bead width
SAW — QW-254
CategoryParagraphBrief of VariablesEssentialSupp. EssentialNonessential
JointsQW-402.1Groove design change
JointsQW-402.4Deletion of backing
JointsQW-402.10Root spacing change
Base MetalsQW-403.5Group Number change
Base MetalsQW-403.6T Limits (toughness)
Base MetalsQW-403.8Thickness qualified change
Base MetalsQW-403.9Pass > 1/2 in. (13 mm)
Base MetalsQW-403.11P-Number change
Filler MetalsQW-404.4F-Number change
Filler MetalsQW-404.5A-Number change
Filler MetalsQW-404.6Diameter change
Filler MetalsQW-404.9Flux-wire classification change
Filler MetalsQW-404.10Alloy flux change
Filler MetalsQW-404.24Supplemental filler change
Filler MetalsQW-404.27Alloy elements change
Filler MetalsQW-404.29Flux designation change
Filler MetalsQW-404.30Weld deposit thickness change
Filler MetalsQW-404.33Classification within SFA spec
Filler MetalsQW-404.34Flux type change
Filler MetalsQW-404.35Flux-wire classification
Filler MetalsQW-404.36Recrushed slag addition
PreheatQW-406.1Decrease > 100°F (55°C)
PreheatQW-406.2Preheat maintenance change
PreheatQW-406.3Increase > 100°F interpass
PWHTQW-407.1PWHT change
PWHTQW-407.2PWHT time and temperature range change
ElectricalQW-409.1Heat input increase
ElectricalQW-409.4Current or polarity change
ElectricalQW-409.8I&E range change
ElectricalQW-409.30Current or polarity change
TechniqueQW-410.1String/weave change
TechniqueQW-410.5Method of cleaning change
TechniqueQW-410.6Method of back gouge change
TechniqueQW-410.7Oscillation change
TechniqueQW-410.8Tube-work distance change
TechniqueQW-410.9Multi to single pass per side
TechniqueQW-410.10Single to multi electrodes
TechniqueQW-410.15Electrode spacing change
TechniqueQW-410.25Manual or automatic change
TechniqueQW-410.26Peening
TechniqueQW-410.64Use of thermal processes
TechniqueQW-410.87Multi to single pass per side
TechniqueQW-410.92Bead width
GMAW / FCAW — QW-255
CategoryParagraphBrief of VariablesEssentialSupp. EssentialNonessential
JointsQW-402.1Groove design change
JointsQW-402.4Deletion of backing
JointsQW-402.10Root spacing change
Base MetalsQW-403.5Group Number change
Base MetalsQW-403.6T Limits (toughness)
Base MetalsQW-403.8Thickness qualified change
Base MetalsQW-403.9Pass > 1/2 in. (13 mm)
Base MetalsQW-403.11P-Number change
Filler MetalsQW-404.4F-Number change
Filler MetalsQW-404.5A-Number change
Filler MetalsQW-404.6Diameter change
Filler MetalsQW-404.12Classification change
Filler MetalsQW-404.23Filler metal product form change
Filler MetalsQW-404.24Supplemental filler change
Filler MetalsQW-404.27Alloy elements change
Filler MetalsQW-404.30Weld deposit thickness change
Filler MetalsQW-404.33Classification within SFA spec
PreheatQW-406.1Decrease > 100°F (55°C)
PreheatQW-406.2Preheat maintenance change
PreheatQW-406.3Increase > 100°F interpass
PWHTQW-407.1PWHT change
PWHTQW-407.2PWHT time and temperature range change
GasQW-408.1Addition or deletion of trailing gas
GasQW-408.2Single, mixture, or percentage change
GasQW-408.3Flow rate change
GasQW-408.5Backing flow change
GasQW-408.9Deletion of backing gas
GasQW-408.10Deletion of trailing gas
ElectricalQW-409.1Heat input increase
ElectricalQW-409.4Current or polarity change
ElectricalQW-409.8I&E range change
ElectricalQW-409.30Current or polarity change
ElectricalQW-409.32Transfer mode change
TechniqueQW-410.1String/weave change
TechniqueQW-410.3Orifice, cup, or nozzle size
TechniqueQW-410.5Method of cleaning change
TechniqueQW-410.6Method of back gouge change
TechniqueQW-410.7Oscillation change
TechniqueQW-410.8Tube-work distance change
TechniqueQW-410.9Multi to single pass per side
TechniqueQW-410.25Manual or automatic change
TechniqueQW-410.26Peening
TechniqueQW-410.64Use of thermal processes
TechniqueQW-410.87Multi to single pass per side
TechniqueQW-410.92Bead width
GTAW — QW-256
CategoryParagraphBrief of VariablesEssentialSupp. EssentialNonessential
JointsQW-402.1Groove design change
JointsQW-402.5Addition of backing
JointsQW-402.10Root spacing change
Base MetalsQW-403.5Group Number change
Base MetalsQW-403.6T Limits (toughness)
Base MetalsQW-403.8Thickness qualified change
Base MetalsQW-403.11P-Number change
Filler MetalsQW-404.3Size change
Filler MetalsQW-404.4F-Number change
Filler MetalsQW-404.5A-Number change
Filler MetalsQW-404.12Classification change
Filler MetalsQW-404.14Addition or deletion of filler metal
Filler MetalsQW-404.22Addition or deletion of insert
Filler MetalsQW-404.23Filler metal product form change
Filler MetalsQW-404.30Weld deposit thickness change
Filler MetalsQW-404.33Classification within SFA spec
Filler MetalsQW-404.50Flux addition or deletion
PreheatQW-406.1Decrease > 100°F (55°C)
PreheatQW-406.3Increase > 100°F interpass
PWHTQW-407.1PWHT change
PWHTQW-407.2PWHT time and temperature range change
GasQW-408.1Addition or deletion of trailing gas
GasQW-408.2Single, mixture, or percentage change
GasQW-408.3Flow rate change
GasQW-408.5Backing flow change
GasQW-408.9Deletion of backing gas
GasQW-408.10Deletion of trailing gas
ElectricalQW-409.1Heat input increase
ElectricalQW-409.3Pulsing current change
ElectricalQW-409.4Current or polarity change
ElectricalQW-409.8I&E range change
ElectricalQW-409.12Tungsten electrode change
ElectricalQW-409.30Current or polarity change
TechniqueQW-410.1String/weave change
TechniqueQW-410.3Orifice, cup, or nozzle size
TechniqueQW-410.5Method of cleaning change
TechniqueQW-410.6Method of back gouge change
TechniqueQW-410.7Oscillation change
TechniqueQW-410.9Multi to single pass per side
TechniqueQW-410.10Single to multi electrodes
TechniqueQW-410.25Manual or automatic change
TechniqueQW-410.26Peening
TechniqueQW-410.64Use of thermal processes
TechniqueQW-410.87Multi to single pass per side
TechniqueQW-410.92Bead width

Key Differences Between Processes

While many variables share the same classification across all four processes, several critical differences determine how fabricators manage their qualifications:

SAW flux variables: SAW introduces three filler metal variables not found in other processes — flux-wire classification (QW-404.9), flux type (QW-404.34), and recrushed slag (QW-404.36) — all classified as essential. A change in flux brand name (QW-404.35) is supplementary essential. These reflect the significant role flux plays in SAW weld metal chemistry.

GMAW/FCAW transfer mode and gas: GMAW adds transfer mode change (QW-409.2) as essential — switching from spray to short-circuit or globular transfer requires re-qualification. Shielding gas composition (QW-408.2) is essential for both GMAW and GTAW. The FCAW-S thickness limit (QW-403.10) and short-circuit thickness limit (QW-404.32) are essential variables unique to this process group.

GTAW current and polarity: For GTAW, current or polarity change (QW-409.4) is an essential variable, unlike SMAW and SAW where it is nonessential. This is because GTAW weld quality is highly sensitive to current type (AC vs DC) and polarity (DCEN vs DCEP). GTAW also adds filler metal variables for consumable inserts (QW-404.22) and addition or deletion of filler metal (QW-404.14) as essential.

Heat input: Heat input increase (QW-409.1) is classified as supplementary essential for SAW, GMAW/FCAW, and GTAW. It does not appear in the SMAW table (QW-253) because SMAW heat input is inherently limited by the manual electrode deposition process.

Practical Implications for Fabricators

Understanding variable classifications directly impacts how many PQRs a shop must maintain. A fabricator working with SMAW on P-Number 1 carbon steels may need only a handful of PQRs to cover their typical work. The same shop adding SAW capability must also qualify the specific flux-wire combination, since changing flux type or adding recrushed slag requires a new PQR.

For shops performing impact-tested work (low-temperature vessels, cryogenic piping), the supplementary essential variables become the controlling factor. Heat input, interpass temperature, and PWHT parameters that would normally be freely adjustable now lock the PQR to a specific range. A fabricator building ASME Section VIII vessels for both ambient and low-temperature service often maintains separate PQR sets for impact-tested and non-impact-tested applications.

"The most expensive essential variable change in a typical pressure vessel shop is not a P-number change — it is discovering at the last minute that the construction code requires impact testing, which retroactively promotes every supplementary essential variable to essential status and may invalidate existing PQRs that were qualified without impact test coupons."

— Field observation, pressure vessel fabrication practice

CWI Exam Tip: The CWI exam frequently tests the concept of supplementary essential variables. The key phrase to remember: supplementary essential variables become essential only when impact testing is required by the referencing construction code. ASME IX itself does not require impact testing — the construction code (Section VIII, B31.3, etc.) makes that determination. If you see a question about when re-qualification is required, check whether impact testing is specified before evaluating supplementary essential variables.

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Related Standards Guides

Frequently Asked Questions

Essential variables are welding parameters that, if changed beyond the qualified range, always require a new procedure qualification record (PQR) regardless of the application. Supplementary essential variables only become essential when the referencing construction code requires impact (toughness) testing — for example, when ASME Section VIII Division 1 invokes UCS-66 for low-temperature service. When impact testing is not required, supplementary essential variables are treated as nonessential and can be changed without re-qualification. This dual classification is unique to ASME IX and does not exist in AWS D1.1 or API 1104.

When an essential variable is changed beyond the range established by the original PQR, the existing procedure qualification is no longer valid for the new conditions. The fabricator must either qualify a new procedure by welding and testing a new test coupon under the revised parameters, or reference a different existing PQR that covers the new variable range. There is no provision in ASME IX to extend or amend an existing PQR — it documents a single test event. Common essential variable changes that trigger re-qualification include changing the base metal P-number, changing the filler metal F-number, and exceeding the qualified thickness range.

Supplementary essential variables become essential when the referencing construction code requires impact testing (Charpy V-notch toughness testing) on the procedure qualification test coupon. This is determined by the construction code, not by Section IX itself. For example, ASME Section VIII Division 1 requires impact testing per UCS-66 for vessels in low-temperature service, and B31.3 requires it for certain process piping applications. When impact testing is required, variables such as heat input increase, preheat decrease, and PWHT changes become essential and require re-qualification if changed.

Yes. A single PQR establishes a qualification range based on the actual test conditions and results. Any WPS whose essential variable ranges fall within the qualification range of that PQR can reference it. For example, a PQR qualified with SMAW using E7018 (F-Number 4) on P-Number 1 material at 1 inch thickness in the 3G position establishes ranges that could support WPSs covering multiple thicknesses, positions (1G, 2G, 3G), and joint configurations. Conversely, a single WPS can reference multiple PQRs if the combined qualification ranges cover all the essential variables specified.

Base metal thickness range (QW-403.8) is the most frequently encountered essential variable change in fabrication. When production work requires welding material thicker than what the original PQR test coupon covered, the fabricator needs a new PQR at the greater thickness. ASME IX generally qualifies a thickness range from the test coupon thickness down to some minimum, and up to 2T (twice the test coupon thickness) for test coupons under 3/4 inch. P-number changes and filler metal F-number changes are also common triggers, particularly in shops that work across carbon steel and stainless steel applications.