Bending Factor In Sheet Metal

Then use the neutral bending radius to calculate the arc length of the neutral line circumference of circle multiplied by the bend angle as fraction of 360deg.

Bending factor in sheet metal.

Finding y factor for sheet metal bending. From there we can calculate the k factor and the bend deduction. There s quite a few different bending methods available. .

Use the known k factor and the known inner bending radius to calculate the bending radius of the neutral line. Y factor k factor x π 2. Our design engineers typically use a factor of 0 4 for our air formed press brake parts. The part of the material that bends without being compressed nor elongated.

K and y factors make metal bending more precise without damaging the material. Figure 2 illustrates the sheet that is bent with the bend angle of 90 degrees. The following table is a rule of thumb. Each has their own advantages.

Of all the mathematical constants used in precision sheet metal fabrication the k factor stands out as one of the most important. The following equation relates the k factor to the bend allowance. For example if the value of k factor for given material thickness and bending machines is known. Therefore using k factor there is no need to calculate sheet metal flat length manually.

To calculate y factor you should multiply k factor by pi and divide the result by two. The k factor is defined as the ratio between the material thickness t and the neutral fibre axis t i e. When you bend sheet metal the neutral axis shifts toward the inside surface of the bend. 90 degrees bend angle.

The k factor is the most important and elusive variable of bending because it varies both as a function of the material and according to parameters such as angle and tooling. We will start by calculating the bend allowance. When bending a workpiece it will naturally spring back a little after the load is lifted. K factor in sheet metal bending is a constant that is used to calculate sheet metal flat length.

It s the base value needed to calculate bend allowances and ultimately the bend deduction. Calculate k factor bend allowance and y factor for sheet metal bending. After bending the sheet we need to do some measurements as shown in figure 2. It s a mathematical multiplier that allows you to locate the repositioned neutral axis of the bend after forming.

Sheet metal bending methods design tips k factor bending methods. How k and y factors affect metal bending. The k factor is the ratio of the neutral axis location t to the material thickness mt. The arc length of the neutral line is the length of the sheet metal you have to leave for the bend.