MFG

Sheet Metal Gauge & Thickness Chart

Steel sheet metal gauge (MSG) numbers from gauge 4 to 26 with thickness in mm and inches, common uses, and why you should specify thickness in mm.

Standard sheet steel gauge (manufacturer standard gauge, MSG) numbers and their thickness, with a common use. Gauge is a traditional scale where lower numbers are thicker; steel, galvanized, aluminum, and stainless each use different scales, so always confirm and order by thickness in millimetres, not by gauge number alone.

How gauge sizing works

A weight-based scale that runs backwards

The gauge system predates modern precision rolling and was originally weight-based: a gauge number corresponded to a weight of sheet per area, which translated to an approximate thickness for a given metal. The numbering runs backwards, so a smaller gauge number means thicker material. Under the manufacturer standard gauge for carbon steel, gauge 4 is about 5.69mm, gauge 10 is about 3.42mm, gauge 16 is about 1.52mm, and gauge 26 is about 0.46mm. The chart lists the standard steel (MSG) values from gauge 4 down to gauge 26, which covers the common fabrication range from heavy plate to thin sheet.

Why mm beats gauge

Gauge is ambiguous because the scale changes with the metal. A 16-gauge carbon steel sheet is 1.52mm, but 16-gauge aluminum and 16-gauge stainless are different thicknesses again, and galvanized steel has its own slight variation. A drawing that calls out only 16 gauge leaves the shop to guess which scale applies, and a wrong guess produces a part at the wrong thickness and stiffness. Specifying the thickness in millimetres (or inches) removes that ambiguity, lets the shop order the correct stock regardless of its working scale, and avoids the larger unit-mismatch risk where a file without explicit units is read at the wrong scale. State the thickness in mm on the drawing and treat the gauge number as a secondary reference only.

Gauge to typical use

Gauge bands by duty

Each gauge band suits a class of work. Heavy gauges (4 to 7, around 4.5mm and up) behave like plate and suit structural baseplates, heavy brackets, and weldments. Mid gauges (10 to 14, roughly 1.9 to 3.4mm) cover general fabrication, structural brackets, and load-carrying enclosures. The 16 to 18 gauge band (1.2 to 1.5mm) is the common enclosure and panel range, light enough to handle and stiff enough to hold shape. Lighter gauges (20 to 22, 0.76 to 0.91mm) suit covers, ducts, and light shrouds, while 24 to 26 gauge (0.46 to 0.61mm) is the thin end, used for light covers and shims and harder to weld cleanly. Picking the gauge by the duty, then converting to mm, is faster than scanning every sheet option.

A worked example shows the method. A wall-mounted electrical enclosure that must support its own weight and a door might start at 16 gauge (1.52mm) for the body, drop to 18 gauge (1.21mm) for a removable cover, and step up to 14 gauge (1.90mm) for the mounting back plate that carries the load. Each choice follows the duty, and each is written on the drawing in mm so the shop orders the right stock no matter which gauge scale it uses.

Gauge and the cutting or bending process

How thickness affects cutting and bending

Thickness drives which processes run well. Fiber laser cutting handles thin to medium sheet cleanly but loses edge quality and needs more power as stock thickens past about 12mm; waterjet takes thick plate at the cost of a wider kerf; plasma cuts thick plate at looser tolerance. For bending, thicker stock (lower gauge) needs a larger minimum bend radius, often expressed as a multiple of thickness such as 1T to 2T, and harder tempers crack more readily at tight radii. A 16-gauge enclosure wall bends readily at a small radius, while a 10-gauge bracket needs a larger die and more force. Plan the gauge together with the cut and bend operations, because a thickness that suits one may force a secondary process in another.

Limitations

The chart lists standard manufacturer standard gauge values for carbon steel sheet; galvanized, aluminum, and stainless use their own scales, so the mm column is the authoritative value and the gauge number is a rough cross-reference. Real delivered thickness can sit at either end of the mill tolerance band for the gauge, and coated steels add a zinc layer on top of the base thickness. For a load-critical or fit-critical part, confirm the actual thickness on the material test report for the specific lot rather than relying on the nominal gauge value.

About this data

Methodology
Canonical manufacturer standard gauge (MSG) values for carbon steel sheet (e.g., 10 ga = 0.1345 in / 3.42 mm; 12 ga = 0.1046 in / 2.66 mm). Galvanized, aluminum, and stainless use different gauge scales, so the stated thickness in mm is authoritative. Confirm the exact thickness on the material test report for a specific project.
Sources
  • Standard steel gauge references (public); Brief C MAT-03 (MC-019-025) for steel material data.
How to read this
Lower gauge is thicker. Always confirm thickness in mm (or inches), since gauge numbers differ between steel, galvanized, aluminum, and stainless.
Sheet steel gauge and thickness (MSG)
gaugethickness mmthickness inapproximate use
45.690.224Heavy plate, structural
74.550.179Heavy plate, structural
103.420.135Plate, brackets
122.660.105Structural, heavy brackets
141.900.075General fabrication
161.520.060Enclosures, panels
181.210.048Light enclosures, ducts
200.910.036Light sheet, covers
220.760.030Thin sheet, shims
240.610.024Very thin sheet, light covers
260.460.018Foil-thin sheet, shims

Frequently asked questions

Is gauge the same for steel and aluminum?
No. Steel (MSG), galvanized, aluminum, and stainless each use different gauge scales, so the same gauge number is a different thickness in each. Always specify thickness in mm.
Does lower gauge mean thicker?
Yes. A 10-gauge steel sheet (3.42mm) is thicker than a 20-gauge sheet (0.91mm). The scale runs backwards: smaller gauge numbers are thicker material.
Why should I state mm instead of gauge?
Because gauges differ by metal, and a unit mismatch can produce parts at the wrong scale. Stating thickness in mm removes the ambiguity and lets a shop order the right stock regardless of which gauge scale it works in.
What gauge is common for enclosures?
Around 16 gauge (1.52mm) for general enclosures and panels, dropping to 18 gauge (1.21mm) for lighter ducts and covers, and up to 12 or 14 gauge (2.66 to 1.90mm) when the enclosure carries load or needs stiffness.
How thick is 10 gauge steel?
About 3.42mm (0.135in) under the manufacturer standard gauge for steel. It is a common plate-and-bracket thickness for brackets and structural sheet parts.
Does gauge affect bend radius?
Yes. Thicker stock (lower gauge) needs a larger minimum bend radius, often expressed as a multiple of thickness such as 1T to 2T, and is more prone to cracking at tight radii, especially in harder tempers.
Are galvanized and stainless gauge the same as steel?
Close but not identical. Galvanized and stainless use their own gauge scales that differ slightly from carbon steel MSG, which is another reason to confirm and order by thickness in mm rather than by gauge number alone.
What is the thinnest practical sheet for fabrication?
Around 24 to 26 gauge (0.61 to 0.46mm) for most handling and welding; below that the sheet becomes hard to fixture and weld cleanly, though laser cutting can still process foil-thin stock.

Sources