Brake Press Machines for Metal Fabrication
Metal Fabrication is a process that consists of shaping and manipulating materials such as steel, aluminum and other metals, in order to create useful tools, components and parts for various industries. This process often requires the use of heavy machinery, such as brake press machines, to accurately shape metal parts.
What is a Brake Press Machine?
A brake press machine is a machine tool used to form a shape from metal sheets, such as steel, aluminum and stainless steel. The brake press is traditionally used in metal fabrication, shipbuilding and automotive industries, and is capable of bending, punching, shearing and folding sheet metal into a variety of shapes.
Types of Brake Press Machines
There are two main types of brake press machines, mechanical and hydraulic.
- Mechanical Presses: Mechanical presses rely on cams to raise and lower the ram of the machine, and can be driven either manually or by a motor. They are commonly used in smaller fabrications, and are usually less expensive than hydraulic presses.
- Hydraulic Presses: Hydraulic presses use hydraulic cylinders to move the ram, and can be used to form large and complex shapes. They are typically used for larger production runs, and are typically more expensive than mechanical presses.
Advantages of a Brake Press Machine
- Precision and accuracy – Brake press machines provide precise and accurate metal forming, which can result in better quality products.
- Durability – The strength of brake press machines allows them to be used for long production runs with minimal wear and tear.
- Efficiency – Brake press machines are capable of bending and punching sheet metal quickly, which increases production speed.
- Cost-effectiveness – Brake press machines can be used to produce large quantities of parts at a low cost.
Brake press machines are an essential tool for metal fabrication. They offer precision, durability, efficiency and cost-effectiveness, which makes them an excellent choice for metal shaping and forming.