When you’re choosing duct, two specs matter most: steel gauge (thickness) and galvanized coating weight (zinc layer, e.g., G60 or G90). Thicker steel resists dents and spans farther; more zinc slows rust at seams and scratches. (Intro to coating weights and ASTM overview: GalvInfoNote, U. S. Steel quick conversions.)

Gauge (Thickness): What it Means

• 30 ga (thin, light): common on small-diameter round pipe for low-pressure runs.
  Pros: light, inexpensive. Cons: dents easily; not ideal for long spans or rough handling.

• 28 ga: step up in stiffness for round and small fittings.
  Pros: better durability. Cons: slightly higher cost/weight.

• 26 ga: standard for many residential trunks and larger fittings.
  Pros: sturdier panels, cleaner seams. Cons: heavier, pricier than 28–30.

• 24 ga: for larger trunks, long spans, light commercial, or tougher handling.
  Pros: strong, holds shape, reduces oil-canning. Cons: more cost/weight; may need heavier hangers.

Rule of thumb: As duct gets larger, longer, or exposed to abuse, go thicker (lower gauge number). (SMACNA context: see the HVAC Duct Construction Standards.)

• Reference: SMACNA HVAC Duct Construction Standards (overview/PDF excerpts) and Ductmate quick guide referencing SMACNA.

G-Ratings (Zinc Coating): Why G60 vs. G90 Matters

The G-number is total zinc weight on both sides (ASTM A653). More zinc = better corrosion resistance.

• G60: balanced protection for interior duct in conditioned spaces.

• G90: extra margin for damp areas, basements, crawlspaces, garages, rooftop curbs, or where condensation risk is higher.

Important: G60 vs. G90 does not change steel thickness—only the protective zinc layer. (Definitions and conversions: GalvInfoNote, G60 vs G90 explainer.)

K & E Shop Standards

• We stock and fabricate 26 ga and 24 ga as our core thicknesses.

• For both 26 ga and 24 ga we use G60 and G90 zinc coatings depending on environment.

• Heavier gauges (22 ga, 20 ga) are used as the job and specifications require (size, pressure class, span, and reinforcement).

• For sealing, we follow UL 181 listed mastics/tapes for HVAC duct systems. (UL 181 context.)

Quick Picks (Save & Share)

• Small round runs (dry interior): 28–30 ga, G60

• Typical residential trunks/returns: 26 ga, G60

• Basement/crawl/garage or any condensation risk: 26 ga, G90 (or 24 ga if large spans)

• Large trunks/long spans/light commercial: 24 ga, G60/G90 per environment

• Outdoor/rooftop/curb: G90 minimum; consider 24 ga or heavier

Advantages & Tradeoffs at a Glance

• Thicker gauge (24 vs. 26): more rigidity, fewer oil-cans, longer spans → higher cost/weight.

• Higher zinc (G90 vs. G60): longer rust resistance → slightly higher material cost.

• Smart combo: match gauge to size/span and G-rating to moisture risk.

Helpful Definitions & Deep Dives

• ASTM A653 (galvanized sheet) overview & conversions: U. S. Steel note and GalvInfoNote 1.1.

• Process background (continuous vs batch hot-dip): American Galvanizers Association explainer.

• UL 181 (mastics & tapes): Carlisle/Hardcast UL 181 note.

Amazon affiliate picks

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• Cold-galv touch-up (zinc-rich) — helps protect field cuts/screws

• UL 181 duct mastic (water-based) — for sealing joints: (UL 181 reference above.)

• UL 181B-FX foil tape — for code-compliant sealing:

• Sheet-metal screws (hex-washer, self-drilling) — for field assembly: