Grain Direction In Sheet Metal Bending

During sheet metal processing rolling operation material grains are arranged in the direction of rolling.

Grain direction in sheet metal bending.

Once the crystallites are elongated they appear as the grain that we see in cold rolled steel. This occurs because bending along the grain allows for separation of the grain boundaries. You can see it on a new piece of sheet metal by noticing the direction of visible lines running through it. This micrograin impacts the design in terms of strength and appearance.

In the example above perhaps were using a certain type of steel and specific bend radius whereby we need to be careful to ensure the sheet metal does not crack due to bending. The grain direction created in the direction the sheet is rolled at the mill runs the length of the full sheet. Two rollers compressing the hot metal cause the polycrystalline material to elongate in the direction of rolling. Working with grain direction.

Bends that run perpendicular to the material s natural grain require slightly more pressure than those running parallel to the grain. The raw sheet has a natural micrograin direction that runs parallel to the 144 in. Bending with the grain gives a different result than bending against it. The grain direction of the metal also contributes to the amount of springback that occurs in a bending operation.

The grain direction is in the rolling direction of the sheet as it was being manufactured. That has negligible impact on part strength. The grain direction is established during the metal rolling process. Bending metal against the grain or perpendicular to the grain is a common way to prevent material failure or cracking.

This can drastically limit the length of parts being formed as most materials grain runs in the long direction but as stated previously reducing the material s grain size may be a solution to this. A metal s grain direction is usually only a factor when bending however. You must pay careful attention to grain or rolling direction when bending high strength metals especially when trying to achieve a small inside bend radius. Whereas bending parallel to rolling direction can lead to cracks because of destruction in grain structure.

Applying this to metal bending be it plate bending press braking or any other type of metal forming consideration must be given to the grain direction before any process is carried out. This is because sharper or tighter bends can be made across the grain without cracking. When sheetmetal is bend perpendicular to rolling direction grain rearranges. Bending with the grain or parallel to the grain direction can be a contributor to material failure as bending along the grain allows for separation of the grain boundaries.

When the sheet is made its particles become elongated in the direction of rolling.