Metal stamping is a cold-forming manufacturing process that uses specialized tools (i.e., dies) and equipment (i.e., presses) to form and cut sheet metal into various shapes and sizes. At the start of a stamping operation, the die(s) is/are installed within the press(es), which provide(s) the force needed to turn the material into the desired component. While stamping dies may vary from project to project depending on the part and production needs, they can be categorized into two main groups: single-station dies and multi-station dies. Below, we go into greater detail on the unique characteristics of each type of metal stamping die.
Multi-station stamping dies are used in stamping operations in which a part is produced by moving the material through different stations. These dies come in series; each die in the series makes slight changes to the workpiece that gradually forms and cuts it into the desired shape and size.
The two main types of multi-station stamping dies are progressive stamping dies and transfer stamping dies.
In progressive stamping operations, each station in the die performs a specific task within the press. Once the task is completed, the workpiece is automatically moved to the next station. This process gradually forms and cuts the material until it has been turned into the desired component. At the final station, the component is cut free from the larger piece of material.
The transfer die stamping process is highly similar to the progressive die stamping process; components are produced by passing the workpiece through a series of consecutive stations within a single die. The main difference between the two processes is that the component is cut from the sheet metal at the beginning rather than the end. Parts are then transferred through the stations manually, robotically or with some mechanical means.
Both progressive stamping dies and transfer stamping dies are widely used for stamping projects. However, given the difference in their processes, they are utilized for different types of projects. Progressive stamping dies are better suited for components that are small and simple, while transfer stamping dies are better suited for components that are large and complex (e.g., frames, shells, tubes, and other structural components and systems). The former dies are also commonly used for parts that require multiple forming and/or cutting operations to be performed simultaneously, while the latter dies are often used for parts that need to be transferred among multiple presses.
Single-station stamping dies—also referred to as single-stage or single-operation stamping dies—are used in stamping operations in which a single element is created or a single operation is performed by each stamping press. If multiple elements and/or operations are needed to produce a finished component, the workpiece must be moved from press to press until it is completed, which can be time-consuming. That’s why these dies are generally used for simple parts and products and low-volume production runs.
Some of the most commonly used single-station stamping dies are simple stamping dies, compound stamping dies, and combination stamping dies.
Simple stamping dies are designed to perform one operation per stroke of the press. They are ideal for basic jobs, like blanking or piercing, but are not suited for larger applications.
Compound stamping dies are designed to perform multiple operations per stroke of the press. They are better suited for complex or demanding jobs than simple stamping dies since they can complete the job faster. However, while they can handle cutting operations (e.g., blanking and piercing), they are not ideal for forming operations (e.g., bending).
Combination stamping dies are similar to compound dies. They can perform multiple operations per stroke of the press. However, they are suitable for both cutting and forming operations, meaning they can be used for blanking, piercing, bending, and forming.
Single-station dies can be used for a variety of stamping operations, including:
This stamping process involves cutting a piece from the sheet material. The cut piece is the desired component, while the remaining material is scrap.
This stamping process is similar to blanking. The main difference between the processes is that that cut piece is scrap, while the material from which the piece was cut is the desired component.
This stamping process places compressive and tensile forces on the sheet metal to draw it over and/or into the die, resulting in the production of a hollow component.
Want additional information on the different types of metal stamping dies? Ask the experts at Premier Products of Racine. Equipped with extensive custom metal stamping experience, we can answer any questions and address any concerns you may have about these components. Additionally, if you need a partner for your next metal stamping project, we’ve got you covered. Contact us or request a quote today to discuss your project with one of our representatives.
A stamping press is a metalworking machine tool used to shape or cut metal by deforming it with a die. A stamping press uses precision-made male and female dies to shape the final product. It is a modern-day counterpart to the hammer and anvil.
Components
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A press has a bolster plate, and a ram.[1] Presses come in various types of frame configurations, C-Frame where the front & left and right sides are open, straight-side, or H-Frame for stronger higher tonnage applications. It is very important to size the press and tonnage based on the type of applications, blanking, forming, progressive, or transfer. Strong consideration should be given to avoiding off-center load conditions to prevent premature wear to the press.
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A 440 ton progressive die stamping pressBolster Plate
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The bolster plate is mounted on top of the press bed and is a large block of metal upon which the bottom portion of a die is clamped; the bolster plate is stationary. Large presses (like the ones used in the automotive industry) may be equipped with die cushions integrated in the bolster plate to apply blank holder or counter draw forces. This is necessary when a single acting press is used for deep drawing. The ram / slide is the moving or reciprocating member that the upper die is mounted to. Ram or Slide guidance is a critical element to assure long die life between die maintenance. Different types of slide guides are available, 4 point V-Gibs or 6 point square gibs on smaller presses and 8 point full length slide guides on larger straight side frame presses. The dies and material are fed into the press between the bolster and slide. Good press designs must account for plastic deformation, otherwise known as deflection when frame design and loads are considered.[2]
Ram / Slide
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The vertical motion of the slide acts like a hammer to an anvil. The most common Mechanical Presses use an eccentric drive to move the press's ram slide, length of stroke or slide travel depends on the crankshaft or eccentric, whereas hydraulic cylinders are used in hydraulic presses. The nature of drive system determines the force progression during the ram's stroke. Mechanical presses have a full tonnage rating point above BDC / Bottom Dead Center, normal full tonnage rating points are .187", .25" & .5". Hence a mechanical press has a tonnage curve and should be operated within the press capacity limits. Link Motion mechanical is yet another option, this provides a slide slow down near BDC / bottom dead center for soft touch tooling. This link feature can improve die life and reduce reverse-snap thru tonnage for blanking operations.[3]
On the contrary, Hydraulic Presses do not have a tonnage curve and can produce full tonnage at any point in the stroke. The trade-off is speed, a mechanical press is much faster when compared to hydraulic. On the other hand, Hydraulic Presses are much more practical for deep forming or drawing or parts or when dwell time at the bottom is desired.
Another classification is single-acting presses versus double- (seldom triple) acting presses. Single-acting presses have one single ram. Double-acting presses have a subdivided ram, to manage, for example, blank holding (to avoid wrinkles) with one ram segment and the forming operation with the second ram segment.[4]
I-PRESS AB PLUS full featured safe press & automation controllerOther Components & Controls
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Typically, presses are electronically linked (with a programmable logic controller) to an automatic feeder which feeds metal raw material through the die. The raw material is fed into the automatic feeder after it has been unrolled from a coil and put through a straightener. A tonnage monitor may be provided to observe the amount of force used for each stroke. [5]
References
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