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Pipe Bending Calculator

Bend Angle (Degrees °)

Centerline Radius (CLR)

Note: Enter units consistently (e.g., all in mm or all in inches). The result will match your input units.

Developed Length (Arc Length): –

Setback (S): –

Bend Deduction (BD): –

Understanding Pipe Bending Calculations

Precision is paramount in metal fabrication. Whether you are bending exhaust pipes, handrails, or structural tubing, calculating the exact length of material required is essential to minimize waste and ensure the final product fits its intended design. This Pipe Bending Calculator helps fabricators determine the developed length (arc length) and setback required for any given bend angle and radius.

Key Terminology in Pipe Bending

Before using the calculator, it is helpful to understand the core geometric concepts involved in bending a tube or pipe:

Bend Angle (θ): The number of degrees you are bending the pipe. A standard right-angle bend is 90°, while a slight offset might be 30° or 45°.
Centerline Radius (CLR): This is the distance from the center of the bend curvature to the centerline (axis) of the pipe. This is usually determined by the die you are using in your bender. It is strictly related to the tooling.
Developed Length (Arc Length): This is the actual length of the pipe that participates in the bend. It represents the curved section along the neutral axis.
Setback (S): The distance from the intersection point of the two straight legs (if they were extended) to the tangent point where the bend begins. This is crucial for layout.
Bend Deduction (BD): The amount of length you must subtract from the sum of the straight leg lengths to get the total cut length of the pipe.

Formulas Used

To ensure accuracy, this calculator utilizes standard trigonometry and geometric formulas used in engineering:

1. Developed Length (Arc Length)

This calculates how much pipe material is physically "consumed" by the curve.

L = (π × CLR × Angle) / 180

Where π is approx 3.14159.

2. Setback

The setback helps you mark where the bend starts relative to the corner measurement.

Setback = tan(Angle / 2) × CLR

3. Bend Deduction

The Bend Deduction allows you to cut your raw material to the correct length before bending.

BD = (2 × Setback) - Developed Length

Example Calculation

Let's say you are bending a roll cage bar and need a 90° bend. Your die has a Centerline Radius (CLR) of 6 inches.

Angle: 90°
CLR: 6 inches

Step 1: Calculate Developed Length
L = (3.14159 × 6 × 90) / 180 = 9.42 inches.

Step 2: Calculate Setback
S = tan(90/2) × 6 = tan(45) × 6 = 1 × 6 = 6.00 inches.

Step 3: Calculate Bend Deduction
BD = (2 × 6) – 9.42 = 12 – 9.42 = 2.58 inches.

This means if you measure to the corner, you must subtract 2.58 inches from your total measured length to get the correct cut length for the straight tube.

Tips for Accurate Bending

Always measure your actual Centerline Radius (CLR) from your bending die rather than assuming it. Springback—the tendency of metal to return to its original shape after bending—means you may need to overbend slightly (e.g., bend to 92° to achieve a resting 90°), but calculations for length should be based on the final desired geometry.