Calculating A Rolling Offset In Sheet Metal

0 059 0 097 in.

Calculating a rolling offset in sheet metal.

Air bend force chart a chart used to calculate the tonnage required for a bend based on thickness tooling and length. You then need to take the square root of the result to get the true offset. If you are rolling a ring with a 12 inch od out of 25 inch thick material the mean diameter of the ring will be 11 75 inches. The length of the material will then be 11 75 x pi or 36 9137 inches.

Calculate the square root of the number to find the rolling offset. Air bending one of the three types of bending for sheet metal where the outside mold line is not pressed against the die. You need to calculate the circumference of the mean diameter of the ring you are rolling. This is used to calculate the back stop location when working off of a flat pattern.

Windseaker1 sorry for being late getting back yes the bend formula works for rolling as well when you roll a plate you are bending it on a large radius the metal still has to shrink on the inside of the neutral line and stretch on the outside to get a finished diameter that you want you have to compensate by adding or subtracting part of the metal thickness from the neutral line. The following illustration shows the equation calculation for determining the bend allowance when forming sheet metal. The resulting number is the offset depth as measured from the material surface. The first number you need to find when calculating a rolling offset is the true offset which is found using pythagoras theorem.

Punch edge radius in. Die edge radius in. This page also includes a link to a on line sheet metal bend allowance calculator. Most sheet metal materials will conform to the calculations.

Step 2 finding the setback and diagonal. Say you need to form an offset specified as 0 156 inch in 0 059 in thick material. In the example the square root of 208 14 42 inches. Ultimate tensile strength psi.

In the diagram above the relationship between the travel length and the offsets is as follows. This simply means that the offset squared plus the rise squared will equal the true offset squared.