MachineCalcs

Press Brake Bend Deduction & Flat Length Calculator

Bend deduction and flat (blank) length for a press-brake bend from the outside flanges, bend angle, inside radius, thickness and K-factor — BD = 2·OSSB − BA. Metric and imperial. Free, no signup.

Sheet Metal 6 inputs 3 results

Calculator

Outside flange length on one side of the bend (mould-line dimension).
mm
Outside flange length on the other side of the bend (mould-line dimension).
mm
Bend (complementary) angle — 90° for a right-angle bend.
°
Inside bend radius (set by the punch tip / die opening).
mm
Material (sheet) thickness.
mm
Ratio of the neutral-axis position to the thickness — empirical; ~0.33–0.45. Confirm with a test bend.

Results

Default result
Edit inputs
Flat length(L)
95.75mm

Blank = A + B − BD for one bend (BA ≈ 5.749 mm).

Sum of outside flanges minus the bend deduction.

Also computed

Bend deduction(BD)4.251mm

2 × outside setback − bend allowance.

Outside setback(OSSB)5mm

(R + t) × tan(angle/2).

Method notes 2 notes
  • Bend deduction BD = 2·OSSB − BA, where the outside setback OSSB = (R + t)·tan(angle/2) and the bend allowance BA = (π/180)·angle·(R + K·t). The flat (blank) length is the sum of the outside flanges minus one BD per bend.
  • Flange A and B are outside (mould-line) dimensions. The K-factor is empirical (~0.33–0.45) — confirm it with a sample bend before cutting a batch.

Bend deduction for a press-brake bend is BD = 2·OSSB − BA, where outside setback OSSB = (R + t)·tan(A/2) and bend allowance BA = (π/180)·A·(R + K·t), with A the bend angle, R the inside radius, t the thickness, and K the K-factor. The flat (blank) length is then A + B − BD, the sum of the outside flanges minus one deduction per bend.

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How to use this calculator

  1. Enter the outside flanges. Enter the two outside (mould-line) flange dimensions, A and B.
  2. Enter the bend angle. Enter the bend angle (90° for a right-angle bend).
  3. Enter radius, thickness and K-factor. Enter the inside bend radius, the material thickness, and the K-factor (~0.33–0.45).
  4. Read the flat length. Read the flat (blank) length, the bend deduction and the outside setback. Subtract one bend deduction per bend for multi-bend parts.

How it works

For a single bend, the bend deduction is BD = 2 · OSSB − BA, where the outside setback is OSSB = (R + t) · tan(angle/2) and the bend allowance is BA = (π/180) · angle · (R + K · t). Here R is the inside radius, t the thickness, and K the K-factor (the neutral-axis position as a fraction of the thickness). The flat (blank) length is the sum of the outside (mould-line) flange dimensions minus one bend deduction per bend: L = A + B − BD.

Worked example

Verified against the live calculator

Two 50 mm outside flanges, a 90° bend, 3 mm inside radius, 2 mm thick, K = 0.33: the outside setback is (3 + 2) × tan 45° = 5.0 mm and the bend allowance is (π/180) × 90 × (3 + 0.33 × 2) ≈ 5.749 mm, so the bend deduction is 2 × 5.0 − 5.749 ≈ 4.25 mm. The flat blank is 50 + 50 − 4.25 ≈ 95.75 mm. The calculator returns exactly this.

Reference data

This bend deduction chart is a normalized quick reference for a 90 degree bend using K = 0.33. Multiply BD / t by your material thickness. For any other bend angle, inside radius, K-factor or measured shop setup, use the calculator inputs above instead of reusing the chart. For tooling-screen context, pair it with the minimum flange length chart.

Bend deduction chart: 90 degree bends normalized by material thickness.
Inside R / t K-factor BD / t Example bend deduction
0.5 0.33 1.696 3.39 mm for 2 mm sheet
1 0.33 1.911 3.82 mm for 2 mm sheet
1.5 0.33 2.125 4.25 mm for 2 mm sheet
2 0.33 2.340 4.68 mm for 2 mm sheet
3 0.33 2.769 5.54 mm for 2 mm sheet

Source: Calculated from BD = 2*OSSB - BA with OSSB = (R + t)*tan(angle/2), BA = (pi/180)*angle*(R + K*t), angle = 90 degrees and K = 0.33. Confirm K-factor and formed inside radius with a sample bend before production.

Frequently asked questions

What is bend deduction?

Bend deduction is the length you subtract from the sum of a part’s outside flange dimensions to get the flat (blank) length. For one bend it is BD = 2·OSSB − BA, where OSSB = (R + t)·tan(angle/2) is the outside setback and BA = (π/180)·angle·(R + K·t) is the bend allowance.

How do I use a bend deduction chart?

Use a bend deduction chart only when the bend angle, inside radius, thickness and K-factor match the chart assumptions. If radius, tooling, material or K-factor changes, calculate a fresh bend deduction or back-solve the K-factor from a test bend.

How do I calculate the flat (blank) length?

Add up the outside (mould-line) flange dimensions and subtract one bend deduction for each bend: flat length = Σ outside flanges − Σ bend deductions. For a single 90° bend joining two 50 mm outside flanges with R = 3 mm, t = 2 mm, K = 0.33, the bend deduction is ≈ 4.25 mm, so the blank is 100 − 4.25 ≈ 95.75 mm.

What is the difference between bend deduction and bend allowance?

Bend allowance (BA) is the developed length of the arc along the neutral axis through the bend itself. Bend deduction (BD) is what you remove from the summed outside flanges: BD = 2·OSSB − BA. Use bend allowance when you sum the flat flange lengths plus the arc; use bend deduction when you work from the outside (mould-line) dimensions — the more common shop method.

Why do my bent parts come out the wrong length?

Almost always a wrong K-factor or inside radius. The K-factor is empirical and varies with material, thickness and tooling, and the actual inside radius from air bending differs from the punch tip. Cut one test piece, measure the flanges after bending, back-calculate the bend deduction, and use that K and radius for the batch.

How do I handle a part with multiple bends?

Subtract a bend deduction for every bend. Flat length = sum of all outside flange segments − (BD₁ + BD₂ + …). If every bend has the same angle, radius, thickness and K-factor, each bend removes the same BD; bends with different angles or radii each get their own.

Does this work in metric and imperial?

Yes — enter the flanges, radius and thickness in mm or inches; the bend deduction, outside setback and flat length convert to your unit system. The bend angle and K-factor are unitless.

Method & assumptions

  • Flange A and B are outside (mould-line), not inside, dimensions.
  • Subtract one bend deduction for each bend; multiply for repeated identical bends.
  • The K-factor is empirical (~0.33–0.45) — back-solve it with the K-factor calculator from a sample bend before cutting a batch, as it varies with material, thickness and tooling.
  • The inside radius is the formed radius; air bending can differ from the punch-tip radius.
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