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Sheet Metal Bend Allowance & Deduction Calculator

Calculate bend allowance, bend deduction, outside setback, K-factor, and flat pattern length for sheet metal bending. Choose from material presets or enter a custom K-factor. Results update in real time.

Bend Parameters

Radius/thickness ratio: 1.00 (standard)
Air bending: most common, springback expected

Results

Bend Allowance (BA)
0.0000 in
Bend Deduction (BD) 0.0000 in
Outside Setback (OSSB) 0.0000 in
K-Factor Used 0.00
Flat Pattern Length 0.0000 in

Bend cross-section diagram (not to scale)

Bend Allowance Formula:
BA = (π/180) × θ × (R + K × T)
OSSB = tan(θ/2) × (R + T)
BD = 2 × OSSB − BA
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Results based on standard K-factor formulas. Verify with test bends for production.

Quick Answer: How Do I Calculate Bend Allowance?

Bend allowance (BA) is the arc length of the neutral axis through a sheet metal bend, and it is the material consumed by forming. The formula is BA = (π/180) × bend angle × (inside radius + K-factor × thickness). Add the bend allowance to the flat leg lengths to get the flat pattern length, where the K-factor sets the neutral axis position.

This calculator computes bend allowance, bend deduction, outside setback (OSSB) and flat pattern length for sheet metal forming. Inputs include material thickness, bend angle, inside bend radius, K-factor (from a material preset or a custom value) and optional flange lengths. Material presets cover aluminum, mild steel, stainless steel, copper, brass and titanium.

Typical K-factor values: Soft aluminum 0.33–0.35 | Aluminum 5052/6061 0.38 | Mild steel / CRS 0.40 | Copper / brass 0.42 | Stainless steel 304 0.45 | Hard / spring steel 0.50. For a 90° bend, outside setback OSSB = inside radius + thickness, and a 0.060″ sheet at R = 0.060″ with K = 0.38 gives BA ≈ 0.131″.

Understanding Bend Allowance in Sheet Metal

When sheet metal is bent, the outside surface stretches and the inside surface compresses. The neutral axis — the line that neither stretches nor compresses — determines the true arc length through the bend. Bend allowance is that arc length, and it is the key to accurate flat pattern development.

Bend Allowance (BA)

Bend allowance is the length of the neutral axis arc through the bend. The formula is: BA = (π/180) × θ × (R + K × T), where θ is bend angle in degrees, R is inside radius, K is the K-factor, and T is material thickness.

Bend Deduction (BD)

Bend deduction is what you subtract from the sum of the outside flange lengths to get the flat pattern length. BD = 2 × OSSB − BA. If you dimension your part to the outside mold line, bend deduction gives you the flat pattern directly.

Outside Setback (OSSB)

Outside setback is the distance from the bend tangent point to the apex (where the outside surfaces would meet). For a 90° bend: OSSB = R + T. For other angles: OSSB = tan(θ/2) × (R + T).

Pro tip: When the inside radius equals the material thickness (R/T = 1), the K-factor is most predictable. Going below R/T = 0.5 risks cracking, especially in harder alloys. Always test bend a sample coupon for production runs.

K-Factor Reference Table by Material

Material Soft / Annealed Half Hard Full Hard
Aluminum (1100, 3003)0.330.350.38
Aluminum (5052, 6061)0.350.380.42
Mild Steel / CRS0.380.400.45
Stainless Steel 3040.420.450.50
Copper / Brass0.350.420.46
Titanium0.400.440.48
Spring Steel0.450.480.50

K-factors vary with radius-to-thickness ratio, grain direction, and bend method. Values above are typical starting points for air bending with the grain. Always verify with test bends.

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Frequently Asked Questions

Bend allowance (BA) is the length of the arc through the bend area along the neutral axis. It represents the material consumed by the bend. BA = (π/180) × bend angle × (inside radius + K-factor × thickness). It is added to flat leg lengths to get the total flat pattern.
Bend deduction (BD) is the amount subtracted from the total outside dimensions to get the flat pattern length. BD = 2 × outside setback − bend allowance. Use bend deduction when your dimensions reference the outside mold line of the bent part.
The K-factor defines where the neutral axis sits relative to material thickness (0 = inside, 1 = outside, 0.5 = center). Soft materials like aluminum use K = 0.33-0.40. Harder materials like stainless steel use K = 0.45-0.50. The K-factor depends on material hardness, bend radius, thickness, and bending method.
For a single bend using inside dimensions: Flat = Leg1 + Leg2 + BA. For outside dimensions: Flat = OD1 + OD2 − BD. This calculator uses the inside flange method. For multiple bends, add the bend allowance for each bend between the flat legs.
Outside setback is the distance from the bend tangent point to the apex where the outside surfaces would intersect. OSSB = tan(angle/2) × (inside radius + thickness). For 90° bends, OSSB = R + T since tan(45°) = 1.
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Combine CNC machined features with sheet metal bending in a single order. We handle brackets, enclosures, and structural parts that need both processes.

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