Galvanized Steel Coating Thickness Chart
Complete reference guide for zinc coating specifications: ASTM A653 G90/Z275, ASTM A123, ISO 1461, GB/T 13912. Convert oz/ft² to g/m² and microns instantly.
ASTM A653 Galvanized Coating Designations
ASTM A653 covers steel sheet, zinc-coated (galvanized) by the hot-dip process. Coating designations range from G01 to G360 (imperial) and Z001 to Z1100 (metric). The designation represents the minimum triple-spot total both sides coating weight.
Common Coating Designations & Thickness Equivalents
| Imperial (G) | Metric (Z) | Total oz/ft² | Total g/m² | Per Side oz/ft² | Per Side g/m² | Thickness per Side (µm) | Thickness per Side (mils) |
|---|---|---|---|---|---|---|---|
| G30 | Z090 | 0.30 | 90 | 0.15 | 45 | ~6.3 | ~0.25 |
| G40 | Z120 | 0.40 | 120 | 0.20 | 60 | ~8.4 | ~0.33 |
| G60 | Z180 | 0.60 | 180 | 0.30 | 90 | ~12.6 | ~0.50 |
| G90 | Z275 | 0.90 | 275 | 0.45 | 137.5 | ~19.3 | ~0.76 |
| G115 | Z350 | 1.15 | 350 | 0.575 | 175 | ~24.5 | ~0.96 |
| G140 | Z450 | 1.40 | 450 | 0.70 | 225 | ~31.5 | ~1.24 |
| G185 | Z550 | 1.85 | 550 | 0.925 | 275 | ~38.5 | ~1.52 |
| G210 | Z600 | 2.10 | 600 | 1.05 | 300 | ~42.0 | ~1.65 |
| G235 | Z700 | 2.35 | 700 | 1.175 | 350 | ~49.0 | ~1.93 |
Note: 1 oz/ft² = 305 g/m². Zinc density = 7.14 g/cm³. Thickness calculated as: coating weight per side ÷ density. Actual thickness may vary ±10-15% due to surface roughness and steel chemistry.
Unit Conversion Quick Reference
Standard conversion factors for zinc coating measurements:
Conversion Formulas
Weight to Thickness
Thickness (µm) = Coating Weight (g/m²) ÷ 7.14For single-side coating: divide total g/m² by 2 first.
Imperial to Metric
g/m² = oz/ft² × 305Example: G90 = 0.90 oz/ft² = 0.90 × 305 ≈ 275 g/m²
ASTM A123 Structural Galvanizing Requirements
ASTM A123 covers zinc coating (hot-dip galvanizing) on iron and steel structural shapes, plate, pipe, tubing, and wire. Minimum average coating thickness depends on material category and measured steel thickness.
Minimum Average Coating Thickness (µm) by Material Category
| Material Category | <1.6mm | 1.6–3.2mm | 3.2–4.8mm | 4.8–6.4mm | 6.4–16.0mm | >16.0mm |
|---|---|---|---|---|---|---|
| Structural Shapes | 45 | 65 | 75 | 75 | 100 | 100 |
| Strip and Bar | 45 | 65 | 75 | 75 | 75 | 100 |
| Plate | 45 | 65 | 75 | 75 | 75 | 100 |
| Pipe & Tubing | 45 | 45 | 75 | 75 | 75 | 75 |
| Wire | 35 | 50 | 60 | 65 | 80 | 80 |
| Reinforcing Bar | — | — | — | — | 100 | 100 |
| Forgings & Castings | — | — | — | 100 | 100 | 100 |
Note: ASTM A123 requires individual specimen coating thickness to be at least one coating grade below the minimum average. All coating thickness requirements are minimums; no maximum exists in the specification.
ISO 1461 Hot Dip Galvanizing Standard
EN ISO 1461 is the European and international standard for hot-dip galvanized coatings on fabricated iron and steel articles (non-centrifuged).
Minimum Coating Thickness Requirements (Non-Centrifuged)
| Steel Thickness (mm) | Local Thickness Minimum (µm) | Average Thickness Minimum (µm) | Coating Mass (g/m²) |
|---|---|---|---|
| ≥ 6 mm | 70 | 85 | 505 |
| ≥ 3 mm to < 6 mm | 55 | 70 | 395 |
| ≥ 1.5 mm to < 3 mm | 45 | 55 | 325 |
| < 1.5 mm | 35 | 45 | 250 |
For grit-blasted surfaces prior to galvanizing, a nominal coating thickness of 1000 g/m² (140 µm) can be specified for steel ≥6 mm.
GB/T 13912 Chinese National Standard
GB/T 13912-2020 specifies technical requirements and test methods for hot-dip galvanized coatings on fabricated iron and steel articles (excluding continuous sheet and tube).
Coating Thickness Requirements (Non-Centrifuged)
| Steel Thickness (mm) | Average Thickness (µm) | Local Thickness Minimum (µm) | Coating Mass (g/m²) |
|---|---|---|---|
| ≥ 6 mm | > 85 | 70 | 505 |
| > 3 mm to < 6 mm | > 70 | 55 | 395 |
| > 1.5 mm to ≤ 3 mm | > 55 | 45 | 325 |
Centrifuged Articles (e.g., Fasteners)
| Diameter (mm) | Local Thickness Minimum (µm) | Coating Mass (g/m²) |
|---|---|---|
| > 6 mm (threaded) | 40 | 285 |
| ≤ 6 mm (threaded) | 20 | 140 |
GB/T 13912-2020 updated from 2002 version with additional terminology definitions and expanded repair requirements.
International Standards Comparison
Comparison of common coating designations across major international standards (total both sides).
| GB/T 2518 (CN) | JIS G3302 (JP) | EN 10327 (EU) | ASTM A653 (US) | Total g/m² |
|---|---|---|---|---|
| Z060 | Z06 | Z060 | — | 60 |
| Z080 | Z08 | Z080 | — | 80 |
| Z090 | Z09 | Z090 | G30 | 90 |
| Z100 | Z10 | Z100 | — | 100 |
| Z120 | Z12 | Z120 | G40 | 120 |
| Z180 | Z18 | Z180 | G60 | 180 |
| Z250 | Z25 | Z250 | — | 250 |
| Z275 | Z27 | Z275 | G90 | 275 |
| Z350 | Z35 | Z350 | G115 | 350 |
Weight Increase Due to Zinc Coating
Galvanizing adds weight to the base steel. The actual increase depends on steel thickness, shape, surface area-to-weight ratio, and coating thickness.
Typical Weight Increase by Steel Type
| Coating Thickness | Steel Type | Surface Area (ft²/ton) | Zinc Added (lbs) | Weight Increase % |
|---|---|---|---|---|
| 3.0 mils (1.7 oz/ft²) | Light Truss | 500 | 990 | ~2.6% |
| 4.0 mils (2.2 oz/ft²) | Typical Mix Shapes | 250 | 660 | ~1.7% |
| 5.0 mils (2.8 oz/ft²) | Heavy Structural | 100 | 330 | ~0.9% |
| 7.0 mils (3.9 oz/ft²) | Reactive Steel (High Si/P) | 500 | 2,309 | ~6.1% |
On average, the galvanized coating increases the weight of black steel by up to 15%, depending on factors including steel chemistry (silicon/phosphorus content significantly affects coating thickness), shape, size, and surface conditions. Typical increase is 3-6% for most structural fabrications.
Coating Weight Estimation
Quick Estimation for Pipes
Galvanized Weight ≈ Black Steel Weight × (1 + 3% to 6%)For precise calculations, use the steel coil weight calculator with galvanized density (~8.05 g/cm³).
Coating Thickness Measurement Methods
Four primary methods are used to measure hot-dip galvanized coating thickness, per ASTM E376 and ISO 2178.
Measurement Techniques
- Magnetic Thickness Gauge (Most Common) — Non-destructive, measures non-magnetic coating on magnetic steel substrate. Calibration per ASTM E376. Accuracy: ±5% of reading.
- Weigh-Strip-Weigh (Referee Method) — Sample weighed, coating stripped in inhibited acid, then re-weighed. Most accurate laboratory method.
- Weighing Before and After Galvanizing — Practical for large articles; measures total zinc pickup.
- Optical Microscopy — Cross-section examination; used for research and failure analysis.
ASTM E376 Key Points
- Surface roughness can cause gauges to read high (Base Metal Reading effect).
- Gauges should be calibrated on uncoated substrate with similar roughness and metallurgy.
- Minimum 5 readings per measurement area, average reported.
- Electronic/digital gauges offer best repeatability.