Sheet Metal Bending: Basics, Allowance, and Tips

The rise in the demand for custom-made products resulted in research that proved sheet metal to be a versatile material that can be transformed into different forms. The transformation occurs by employing simple sheet forming processes such as metal bending to shape the sheet metal into the desired forms needed for various production purposes. There are many processes involved in making this happen, and knowing how to bend sheet metal comes with having a fair knowledge about them.

This article would explore the importance of sheet metal bending, its importance in sheet metal fabrication processes, and how to bend sheet metal. It also includes some useful bending tips which can guide on bending steel plates.

Sheet Metal Bending

Sheet metal bending is an effective way of making products with different shapes used for different processes. It guarantees simplicity and it is an efficient way of forming new products. Here, you will know about sheet metal bending, its importance, and the methods needed for the process.

Sheet metal bending is an operation that involves using forces to change the shape of a sheet. This is done to achieve the desired form or shape needed for a manufacturing process. The external force used alters only the external features of the sheet. However, parameters of the one type of sheet metal such as length and thickness remain the same. The malleability of the sheet metal further allows it to undergo various shaping processes.


Applications of Bent Sheet Metal

Sheet metal bending is one of the essential procedures in the metal processing industry. For example, it is an important phase in the automotive companies since they work with different shapes to get the perfect automobile part that works with their design. The process can be at an industrial level, where it is ideal for creating big engine parts. Nevertheless, it can also be used in making little parts for the replacement of worn-out engine parts. While there are many processes involved in the operation, all sheet metal bending methods consider standard techniques to ensure precision across its production.

Sheet Metal Bending Methods

Sheet metal bending methods are similar in that their end goal is to transform sheet metal structures to the desired forms. However, they differ in operation. Knowing how to bend sheet metal comes with understanding that factors such as the thickness of the material, size of the bend, sheet metal bend radius, and intended purpose determine the methods.

The methods listed below would not only show you how to bend sheet metal. They would also show you which to employ for the best outcome. The most common sheet metal bending methods are:


This is the most common sheet bending method as it is used for most bending projects. It employs an instrument known as the punch and v-die to bend sheet metals at desired angles. During the process, the bending punch presses on the sheet metal placed over the V-die.

The angle formed by the sheet metal is dependent on the pressure point of the punch. This makes this method easy and efficient as it can be employed for bending steel plates without altering their position.

The V-bending method can be classified into three:

· Bottoming


As the name suggests, bottoming or bottom bending involves compressing the sheet metal to the preset die’s bottom to form a defined angle and shape. In bottoming, the position and shape of the die angle determine the outcome of the bend. Also, the spring-back of the compressed sheet metal is impossible. This is because the force of the punch and the die’s angle conforms the sheet metal to a permanent structure.

· Coining


Coining is a bending method widely employed for its precision and its unique ability to create distinguishing sheets. In the process, there is no spring-back of the sheets. This is because the coin penetrates the sheet metal at a small radius, creating a dent present on a coin to distinguish sheets from another.

· Air Bending

Air bending or partial bending is a less accurate method compared to bottoming and coining. However, it is usually employed for its simplicity and ease of manipulation since it doesn’t require tools.

There is also a disadvantage. Air bending is the only method prone to the spring-back of the sheet metal.

In air bending, the punch exerts a force on the sheet metal resting on both points of the die’s opening. A press brake is usually employed during the V bending as the sheet metal does not come in contact with the bottom of the die.

(A press brake is a simple machine employed in sheet metal bending processes, it forms desired bends on the sheet by working to clamp the sheet metal in position for press between the punch and the die)

Roll Bending


Roll bending is a method used to bend sheet metals into rolls or curved shapes. The process employs a hydraulic press, a press brake, and three sets of rollers to make different bends or a big round bend. It is useful in forming cones, tubes, and hollow shapes as it takes advantage of the distance between its rollers to make bends and curves.



In terms of principle, U-bending is akin to V-bending. It uses the same instrument (except a U-die) and process, although the only difference is that the shape formed is U-shaped. U-bending is very popular. However, other methods produce the shape flexibly.

Wipe Bending

Wipe bending is another method used in bending sheets of metal edges. The process depends on the wipe die. For example, the sheet metal must be properly pushed onto the wipe die. The wipe is also responsible for the determination of the sheet metal’s bend inner radius.

Rotary Bending

This bending method has an advantage over wipe bending or V-bending because it does not lead to scratching the material’s surface. It is also ideal because it can bend materials into sharp corners. For example, it is used in bending corners greater than 90.