Bending Sheet Metal Rules

It is important to make sure that the sheet is properly pushed onto the wipe die.

Bending sheet metal rules.

As a general recommendation 0 005 in. Bend relief and collars near pierced areas strengthen sheet metal parts. The springback reasons for sheet metal bending the so called bending is the deformation of tensile stress and compressive stress on the front and back of the same plate. Once the plate is bent to the target angle the material will bounce back to its original shape once the pressure is removed due to tensile stress and compressive stress.

There is no particular rule for how much the material should be weakened but as a rule of. In other words if you re bending 1 8 sheet use a tool with a 1 8 radius to form the inside of the bend. Bending is performed by a press brake machine that can be automatically or manually loaded. Here s a good rule of thumb for most materials.

For bent sheet metal variation in the raw material thickness increases the recommended precision to 0 010 in. If you re bending 0 020 thick material use a 0 020 radius. Bends can be short or long depending on what the design requires. The slack between the wipe die and the punch plays an important role in getting a good result.

Bend relief is provided at the end of bending edge in sheet metal design to avoid any crack tearing in the corner. Relief height is generally kept greater than two times of sheet thickness plus bend radius. Extrude hole size position guidelines creating an extruded hole using a punching process requires extreme pressure force. As per sheet metal design thumb rules the depth of bend relief should be greater than or equal to the inside bend radius of the bend and the width of the bend relief should be the same as the sheet metal thickness or more.

When slotting sheet metal at the bend axis the material s average density in the bend region is decreased. Wipe bending or edge bending is another way to bend sheet metal edges. When the sheet metal bend is parallel to the direction of the fiber of the metal material cracks are likely to occur at the bend of the sheet metal and the bending strength is low and it is easy to break as shown in the following figure. Sheet metal bending should be as perpendicular as possible to the direction of the metal fiber.

Runs right at the limit of precision flat sheet metal in a job shop environment. The inside bend radius should be equal to the thickness of the material that you re forming.