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Reference Chart

Minimum Bend Radius Chart

Minimum bend radius recommendations for sheet metal by material type, thickness, and grain direction. Covers aluminum (5052-H32, 6061-T6), mild steel, 304 stainless steel, C110 copper, and C260 brass across common gauges.

Showing 36 of 36 entries
Material Alloy / Grade Thickness (in) Gauge Min Radius (with grain) Min Radius (across grain) Notes
Aluminum5052-H320.02024 ga1T (0.020")0.5T (0.010")Most formable common alloy
Aluminum5052-H320.03222 ga1T (0.032")0.5T (0.016")Excellent for enclosures
Aluminum5052-H320.04020 ga1T (0.040")1T (0.040")General sheet metal work
Aluminum5052-H320.06316 ga1T (0.063")1T (0.063")Brackets, panels
Aluminum5052-H320.09013 ga1.5T (0.135")1T (0.090")Structural panels
Aluminum5052-H320.12511 ga1.5T (0.188")1T (0.125")Heavier brackets
Aluminum6061-T60.03222 ga3T (0.096")2T (0.064")Prone to cracking; anneal for tighter bends
Aluminum6061-T60.04020 ga3T (0.120")2T (0.080")Use generous radii
Aluminum6061-T60.06316 ga4T (0.252")3T (0.189")Consider 5052 if tight bends needed
Aluminum6061-T60.09013 ga5T (0.450")3T (0.270")High risk of cracking
Aluminum6061-T60.12511 ga6T (0.750")4T (0.500")Anneal bend zone recommended
Aluminum6061-T60.19010 ga6T (1.140")5T (0.950")Not recommended for tight bends
Mild Steel1018 CR0.03022 ga0.5T (0.015")0.5T (0.015")Very formable
Mild Steel1018 CR0.04818 ga0.5T (0.024")0.5T (0.024")General fabrication
Mild Steel1018 CR0.06016 ga1T (0.060")0.5T (0.030")Brackets, chassis
Mild Steel1018 CR0.07514 ga1T (0.075")0.5T (0.038")Structural parts
Mild Steel1018 CR0.10512 ga1T (0.105")1T (0.105")Heavy gauge forming
Mild Steel1018 CR0.13510 ga1.5T (0.203")1T (0.135")Heavy gauge, may need bottoming
Stainless Steel304 (annealed)0.03022 ga1T (0.030")0.5T (0.015")Work hardens during bending
Stainless Steel304 (annealed)0.04818 ga1T (0.048")0.5T (0.024")General stainless fabrication
Stainless Steel304 (annealed)0.06016 ga1T (0.060")1T (0.060")Kitchen, medical equipment
Stainless Steel304 (annealed)0.07514 ga1.5T (0.113")1T (0.075")Heavier stainless parts
Stainless Steel304 (annealed)0.10512 ga1.5T (0.158")1T (0.105")Structural stainless
Stainless Steel304 (annealed)0.13510 ga2T (0.270")1.5T (0.203")High springback; over-bend required
CopperC110 (ETP, soft)0.02024 ga0T (flat)0T (flat)Extremely ductile when annealed
CopperC110 (ETP, soft)0.03222 ga0T (flat)0T (flat)Bus bars, electrical
CopperC110 (ETP, soft)0.06316 ga0.5T (0.032")0T (flat)Excellent formability
CopperC110 (ETP, soft)0.12511 ga1T (0.125")0.5T (0.063")Heavier bus bars
BrassC260 (cartridge, soft)0.02024 ga0T (flat)0T (flat)Very ductile annealed brass
BrassC260 (cartridge, soft)0.03222 ga0.5T (0.016")0T (flat)Decorative, musical instruments
BrassC260 (cartridge, soft)0.06316 ga0.5T (0.032")0.5T (0.032")General brass fabrication
BrassC260 (cartridge, soft)0.12511 ga1T (0.125")0.5T (0.063")Heavier brass parts
BrassC260 (half-hard)0.03222 ga1T (0.032")0.5T (0.016")Springs, clips
BrassC260 (half-hard)0.06316 ga1.5T (0.095")1T (0.063")Structural brass
CopperC110 (half-hard)0.06316 ga1T (0.063")0.5T (0.032")Harder temper; less ductile
CopperC110 (half-hard)0.12511 ga2T (0.250")1T (0.125")Anneal for tighter bends
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Notes on This Chart

  • "T" refers to material thickness. Example: 2T for 0.063" material = 0.126" minimum bend radius.
  • Values are for 90-degree bends. Sharper angles may require larger radii.
  • "With grain" means bending parallel to the rolling direction (worst case). "Across grain" is perpendicular (best case).
  • Actual results vary with tooling condition, press brake tonnage, and material lot variation.
  • When in doubt, test bend a sample piece before committing to production.

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Frequently Asked Questions

What is the minimum bend radius for sheet metal?

The minimum bend radius is the smallest inside radius you can bend a sheet without cracking. It depends on the material, temper, thickness, and grain direction. Soft materials like annealed aluminum can bend to a radius equal to the material thickness (1T). Harder materials like 6061-T6 aluminum may need 3T to 6T minimum radius.

Why does grain direction matter when bending sheet metal?

Sheet metal has a grain direction from the rolling process. Bending across (perpendicular to) the grain allows a tighter bend radius because the material is more ductile in that direction. Bending with (parallel to) the grain requires a larger radius to avoid cracking. When possible, orient your bends across the grain.

What happens if I bend tighter than the minimum radius?

Bending tighter than the recommended minimum radius causes the outer surface of the bend to crack. In ductile materials, you may see orange peel texture before cracking. In harder tempers like T6 aluminum, the material can fracture suddenly. Always use at least the minimum radius or consider annealing the bend zone first.

How do I calculate bend allowance from bend radius?

Bend allowance = (pi / 180) x bend angle x (bend radius + K-factor x material thickness). The K-factor typically ranges from 0.33 for air bending to 0.50 for bottoming. Use our Bend Allowance Calculator for automatic flat pattern calculations.

Can I bend 6061-T6 aluminum without cracking?

Yes, but 6061-T6 requires a larger bend radius than softer alloys. For thin gauges (0.032" to 0.063"), use a minimum of 2T to 3T radius. For thicker material (0.090" and above), use 4T to 6T. Bending across the grain and using a generous radius significantly reduces cracking risk. For tight bends, consider 5052-H32, which is much more formable.

Related Resources

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More Resources

Bend Allowance Calculator | K-Factor & Flat Pattern Copper & Brass Alloy Grades Chart Material Properties Chart | Strength & Thermal Data Material Hardness Chart | Brinell, Rockwell & Vickers CNC Material Selection Guide ISO 2768 Tolerance Chart
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