📐 Bending & Forming Design

Sheet Metal Forming Calculator

Bend Allowance · Bend Deduction · Flat Length · Outside Setback · Material Weight

Material Thickness (T)

Inside Bend Radius (R)

Soft Al: R ≥ T · Mild Steel: R ≥ 1.5T · Hard: R ≥ 2T

Bend Angle (A)

Acute < 90° · Right = 90° · Obtuse > 90°

K-Factor

Air 0.30 Soft 0.33 Med 0.38 Hard 0.42 Full 0.50

Soft Al: 0.30–0.33 · Mild Steel: 0.35–0.40 · SS: 0.40–0.45

Bend Allowance (BA)

-mm

Arc length along neutral axis

Bend Deduction (BD)

Neutral Axis R

mm (R + K×T)

OSS (per side)

Springback ≈

° overbend

Live Formulas

BA - -

BD - -

OSS - -

Bend Summary

Angle-

R / T ratio-

K-Factor-

BD vs BA-

💡

Design Tips

Best practices for accurate bend calculations

📏

Bend Radius Rule

Always keep inside radius ≥ material thickness to prevent cracking or splitting.

🔑

K-Factor Selection

Use proper K-factor: 0.30 for air bending, 0.50 for coining. Affects BA accuracy significantly.

🎯

Springback

Over-bend by ~2–3° on mild steel. Springback increases with higher R/T ratios.

⚙️

Validate Flat Pattern

Always verify flat pattern on paper template before cutting sheet metal stock.

Material Thickness (T)

Inside Bend Radius (R)

Bend Angle (A)

K-Factor

Air 0.30 Soft 0.33 Med 0.38 Hard 0.42 Full 0.50

Leg 1 Length (L1)

Measured from bend tangent line to part edge

Leg 2 Length (L2)

Flat / Developed Length

-mm

L1 + L2 − BD

Bend Allowance (BA)

Bend Deduction (BD)

L1 + L2

mm (before bend)

Material Saved

mm (vs L1+L2)

Live Formulas

BA - -

BD - -

Flat - -

Flat Pattern Summary

L1 + L2-

Bend Deduction-

Flat Length-

Bend Arc (BA)-

Material Thickness (T)

Inside Bend Radius (R)

Bend Angle (A)

Outside Setback is the distance from the bend tangent line to the apex (mold line intersection). Essential for locating part features relative to the bend.

Outside Setback (OSS)

-mm

OSS = (R + T) × tan(A/2)

Total OSS (×2)

mm (both sides)

R + T

mm (outside radius)

tan(A/2)

dimensionless

Mold Line Dist

mm from apex

Live Formula

OSS - -

Total - -

OSS Reference

90° bend at R=TOSS = 2T

Larger A → OSS↑ increases

Use for-

OSS / (R+T)-

Material / Density

Custom Density

g/cm³

Length

Width

Thickness

Quantity (pcs)

pcs

kg / piece

g / piece

kg total

cm³ volume

Surface Area

cm²

Density Used

g/cm³

Total Volume

cm³ (all pcs)

Weight / m²

kg/m²

Formula

Weight (kg) L(mm) × W(mm) × T(mm) × Density(g/cm³) ÷ 1,000,000 -

Weight Summary

Dimensions-

Density-

Per Piece-

Quantity-

Total Weight-

Sheet Metal Forming Calculator: Bend Allowance & Flat Pattern Guide

Accurately calculating the flat pattern (developed length) in sheet metal bending is critical for tooling design and material saving. Bend Allowance, Bend Deduction and K-factor all depend on the bending process and material. This calculator uses SolidWorks, CATIA and AutoCAD standard formulas.

📋 How to Use This Calculator

Enter material type and thickness (mm).
Specify bend radius (mm) and bend angle (degrees).
Select bending method, Air bending, Soft/Medium/Hard/Full, K-factor is set automatically.
Note the Bend Allowance (BA), Bend Deduction (BD), Flat Length and Outside Set Back (OSSB) results.

📐 Formula & Working Principle

K-factor = t_neutral/t (neutral axis location). Bend Allowance BA = (π/180) × (R + K×t) × θ. Bend Deduction BD = 2×(R+t)×tan(θ/2) − BA. Flat Length = Sum of flat portions + Sum of BA.

💡 Worked Example

CRCA steel 2 mm, R=4 mm, θ=90°, Air bend K=0.33. BA = (π/180)×(4+0.33×2)×90 = 7.32 mm. Flat portions: 50 mm + 80 mm. Total flat length = 50+80+7.32 = 137.32 mm.

❓ Frequently Asked Questions (FAQ)

Q: What is K-factor and how do I decide its value?

K-factor defines the neutral axis position (0=inner surface, 0.5=centre). Air bend: 0.33–0.38. Bottoming: 0.38–0.42. Coining: 0.45–0.50. It also varies with material softness.

Q: What should the minimum bend radius be?

Minimum bend radius ≈ 0.5t to 2t (depending on material). Aluminium: 0.5–1t, Mild Steel: 0.5–1.5t, Stainless: 1–2t, High Strength Steel: 2–4t. A smaller radius risks cracking.

Q: What is springback and how is it compensated?

Springback is the elastic recovery that opens the bend angle slightly after bending. Compensate by overbending 2–5° extra (material-specific). Bottoming/coining minimises springback.

Q: Which radius should be measured: inside or outside?

Always specify the inside bend radius (R) on drawings, it corresponds directly to the punch nose radius. Outside radius = Inside radius + material thickness.

Q: How do I export a flat pattern to DXF/CAD?

SolidWorks Sheet Metal → Flat Pattern → DXF export. CATIA: Generative Sheet Metal Design → Unfolded View. AutoCAD: manually calculate flat length and draw.