Dan, you sound like you are well on your way. Remember that coining is an area beyond air bending, i.e. the part is bent 90, past 90, the punch penetrates the face of the material, plastically deforms it, and "coins" it back to 90. When you are putting your die set together , make sure you incorporate bolster/shim blocks underneath the actual die former, that way you can shim the bolsters up until you creep up on 90, then approx. 92deg (shouldn't go much beyond 92 if you are using 90deg punch/die combo for this), once you hit 92ish, continue to shim, my guess would be coining would be approx. .004-.006 beyond). A last thought is to incorporate a urethane pad in the die set, to get the tonnage to coin the part, but avoid being so close to the actual bottom of stroke of the press, i.e. risking bottoming/tonnage-spiking/lockups. Good luck in your endeavor.
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In today’s manufacturing landscape, bending machines are indispensable tools, shaping raw materials into precise forms with unmatched efficiency. From crafting angular designs into sheet metal to curving robust steel tubes, these machines are the backbone of countless industries, including automotive, construction, HVAC and more.
However, finding the right bending for your business can be a challenging process.
This article simplifies the basics of metal bending machines and compares their various types, applications, and benefits.
Bending machines are metal processing tools that bend, shape, and curve parts at various angles. The bending process is a cold working technique that gently stretches the metal to the desired angle. Occasionally, some machine oil or lubricant is required to help reduce the resistance between the workpiece and the die press.
The key to a high-quality bending machine is the even distribution of pressure along the surface of the metal workpiece. Equal and consistent force reduces the risk of metal fatigue and accidental fracture.
Bending machines have near-universal metal compatibility. They can bend everything from soft metals like copper and aluminum to tough ones like stainless steel and titanium.
The machine type primarily determines the basic working principle of a bending machine. Press brake-type bending machines use a punch-and-die approach to shape sheet metal. Contrarily, a pipe-bending machine uses a set of two to three spinning rollers that stretch and bend the pipe.
Later, as we get into the details of the different bending machines, we will see that the general principle remains the same. To initiate the bend, the metal workpiece needs two controlled opposing forces at a concentrated point.
We discuss the various metals being processed in more detail later in the article.
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Whether it’s small pipes, large tubes, rebar, thick metal plates, or regular sheet metal, a bending machine is available for all applications.
Each bending machine has specific functions that cater to the various metal fabrication processes.
A pipe bending machine is designed to bend cylindrical shapes so that the pipe’s internal diameter remains consistent throughout its entire length. Although such machinery is commonly called a pipe bending machine, it can bend other tube shapes like rectangular or square tubes, solid rods, or metal channels.
Pipe bender parameters vary from machine to machine. Most industrial machines have the following parameters.
Pipe bending machine work can be categorized into a few types based on manual or automatic configurations and their different feature sets. There are four basic types of pipe-bending machines.
A pipe bending machine is used in several professional industries. Bending pipes is always challenging as the inner side of the bend can easily collapse and crimple.
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A plate roll bending machine is an industrial tool designed to curve large metal plates into a cylindrical or semi-cylindrical path. Even entry-level plate rollers are usually the size of a truck and are either fully or semi-automatic.
A standard industrial plate rolling machine can cold roll up to 3-inch thick metal plates. The same machine can even bend 4-inch thick plates using hot rolling.
Here are some common operation parameters of plate rolling machines.
The general design of a plate rolling machine remains consistent across various models. It uses a three-roller system arranged in a pyramid shape. The top roller applies downward force, and the bottom two rollers apply counter-reaction, keeping the metal plate securely clamped in the middle.
Powerful motor control systems monitor and adjust the distance between the top and bottom rollers. Like pipe bending machines, multiple passes through the machine are required for sharper bends.
A sheet metal bending machine is a powerful tool for shaping flat metal sheets into complex shapes and structures. These bending tools can bend, curve, and fold metals at various angles for a sharp, angular, or rounded finish.
Sheet metal bending is always used in conjunction with a metal cutting technique. For example, fiber laser cutting machines are used to cut out the basic shape, and bending machines are used to shape it into a 3D design.
Similar to pipe rolling, several types of sheet metal bending techniques exist.
Heming is the process of reinforcing metal edges and hiding the burs.
Press brake machines are specialized industrial metal plate and sheet fabrication tools. They utilize a punch-and-die approach to bending and have robust brakes that stop the punch from fully making contact with the die underneath.
A press brake bending machine can output incredible downward force, allowing for thick metal plate processing. It also supports different braking systems that have their own advantages.
Electric brakes are the highest-performing option and are generally preferred for their near-silent operation.
A matching punch and die set is attached to the press brake machine. Bending instructions are fed to a computer system that determines the punch’s compressive force and braking point.
Press brake machines come with a diverse range of punch and die tools that determine the bend’s angle, shape, and finish.
Press brake machines are used in various industries for different metal-forming applications.
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Mechanical bending refers to the use of motors, wheels, gears, or levers to initiate a compressive or tensile force on the metal workpiece. These metal bending machines can have automatic or manual operation modes.
Pipe bending and plate rolling machines are two popular examples of mechanical bending.
Mechanical bending machines have excellent accuracy and produce more consistent and sharp bends. They are primarily used for complex and intricate fabrication work.
The process specifics will vary depending on the machine model and bending technique. However, the core principles remain the same.
Hydraulics is the science of using liquids to generate and transfer force. A hydraulic bending machine is more powerful and supports thicker metal plates than any mechanical option. Hydraulics are also more reliable than motors and gear trains.
Die and punch-type bending machines can have either mechanical or hydraulic actuation sources. Press Brake machine manufacturers often offer both options for the same model.
A hydraulic bending machine has more power than a mechanical one but less overall accuracy. It has a uniform force distribution, so the bend for a larger workpiece remains consistent across its length. Hydraulic machines are best suited to high-volume production runs.
A piston applies a small downward force on a hydraulic cylinder, which pushes the liquid into a larger container. Hydraulic pressure is directly related to surface area. So, when the liquid enters the larger container with a higher surface area, the initial force multiplies according to the surface ratio of the two containers.
Some bending machines use a hybrid design, where the rollers are mechanically driven, but a hydraulic control system maintains the distance between the rollers.
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Bending machines can process most metal materials with ease. Softer metals, in particular, are no problem. The material choices remain consistent whether you’re looking for a metal plate, sheet metal, or pipe bending machine.
Avoid particularly tough and brittle materials like heat-treated and hardened steel plates. For pipe bending machine material, wall thickness is more important than metal type. Softer metals will collapse more easily when bending pipes.
Additionally, always check the manufacturer-provided manual for the fine details.
A metal bending machine is a big investment. Choosing one that fits your business needs and makes the most out of your budget can be challenging.
So here are seven factors that are sure to make your job easier.
Outline the types of metals and shapes you’ll primarily be using: metal sheets, pipes, rebar, plates, channels, etc. If you need accurate and precise bends for those high-performance applications, consider automatic machines (CNC systems).
Evaluate the machine’s bending capacity in terms of thickness and length of the metal and its maximum bend diameter in case of plate rolling. Ensure it meets your current and potential future project requirements.
Larger machines are considerably more expensive due to their increased size, power, and manufacturing complexity.
Bending accuracy refers to a bending tool’s ability to make bends accurately to meet your needs. Poor bending accuracy means a 90° bent pipe will have an error of one or two degrees. Look for machines with features like digital readouts, angle presets, or CNC capabilities for precise bending.
Consider the user-friendliness of the machine, especially if you’re not highly experienced with metalworking. Features like intuitive controls, quick setup, and ergonomic design can enhance productivity and reduce errors.
Review the warranty documentation provided by the manufacturer. Ensure it includes essential components and addresses common issues that may arise during regular use. A comprehensive warranty can offer peace of mind and protect your investment.
Also, ask the bending tool supplier or manufacturer about their policy on accidental damage during shipping.
Factor in shipping expenses, especially if you purchase the machine from an overseas location. International shipping costs are all over the place. Compare shipping options and consider any additional fees associated with delivery to determine the total cost.
Evaluate the manufacturer’s reputation for after-sales support and customer service. This includes technical assistance, spare parts availability, and maintenance services. Reliable after-sales support can minimize downtime and extend the lifespan of your machine.
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Timely cleaning and equipment maintenance are necessary for the longevity of your machine. Here are a few simple steps you can take to keep your pipe bending machine in pristine condition.
A pipe bender is designed to deal with small-diameter items. Trying to bend pipes that exceed the machine’s parameters will lead to premature wear and potentially cause serious damage.
Lubrication is critical for reducing friction and preventing wear on moving parts. Follow the manufacturer’s recommendations for lubricating the machine’s components, including the bending mechanism, punch piston, rollers, and hydraulic system.
Over time, dust and small metal bits can accumulate inside your machine. This problem accelerates when working on a factory floor with many other metal processing equipment like metal sheet & tube-integrated laser cutting machines. Use compressed air or a vacuum to remove larger bits and wipe down surfaces with a damp cloth for dust.
Keeping the machine clean also prevents corrosion and ensures smooth operation.
Inspect the bending tools, such as dies, punches, and mandrels, for signs of wear or damage. Replace worn-out or damaged tools promptly to maintain bending accuracy and prevent defects in the finished parts.
An optional maintenance factor is hydraulic system upkeep. If your bending machine is hydraulic-driven, regularly inspect the hydraulic system for leaks, damaged hoses, or worn seals. Check hydraulic fluid levels and condition, and replace or top up fluid as necessary.
Metal bending tools play a big part in our modern manufacturing industries. The traditional method of hammer curving parts was time-consuming and yielded poor results. Modern bending methods, like hydraulic bending and pipe rolling, have proven themselves time and time again. Pipe bending, in particular, is a necessary element for plumbing work.
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