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Stack injection molds consist of multiple parallel mold plates that are “stacked” together to create multiple faces or levels for injection molding.  They have higher up-front costs but require less clamping tonnage per cycle. These injection molds can accommodate various materials simultaneously for greater flexibility in production.

Semi-positive molds combine the advantages of flash and positive molds; however, they’re also the most expensive type of compression mold. Semi-positive molds do not require precise material measurements, but it’s still important to minimize flash to limit post-processing.

Compression molding and injection molding are both used in a variety of industrial applications. Examples include aerospace, automotive, and electronics. These molding techniques are also used in consumer products and medical and dental applications. Although injection molding is better for high volumes of parts, compression molding can support personalized applications such as dentures because of its lower tooling costs.

Two-plate molds are the most common and cost-effective type of injection mold. They have a single parting line where the core and cavity plates meet. These injection molds are especially efficient when they have multiple cavities, and they work well with any type of runner system.

Compression molding and injection molding can process some of the same elastomers, including silicone and fluorosilicone. It’s important to note, however, that compression molding uses gum-like high-consistency rubber (HCR) while injection molding uses liquid silicone rubber (LSR) instead.

Positive molds cost more than flash molds but require careful measurement of the material. Typically, they’re used with deep draw parts and when it’s important to control part density. Because positive molds produce less flash, they’re a good choice for more expensive materials.

Because injection molding supports more detailed designs, its design rules are both more numerous and complex. With both molding processes, however, it’s essential to avoid excessively thick walls, unnecessary undercuts, sharp corners, and sudden changes in wall thickness. This helps to minimize the risk of defects while also controlling costs.

Compression molding can produce larger and heavier parts than injection molding. Still, that doesn’t mean designers can’t use injection molding for parts like automotive dashboards. Plus, both molding processes can produce smaller parts as well. Examples include the facepieces for respirators and CPAP machines.

Compression molding vs. injection molding is a contest between two of the most popular ways to mold plastic and rubber parts. Each process has advantages and applications, but what’s the best choice for your next project? To answer that question, you’ll need to understand how each process works and where they differ.

There are three main types of compression molds: flash, positive, and semi-positive. The differences between them involve the amount of material that’s used and the amount of flash that’s produced. In general, compression molding produces more flash than injection molding.

There are some differences between molding processes, however. With compression molding, the core is the stationary top half of the mold and the cavity is the moveable bottom half. With injection molding, the core is usually (but not always) movable. In most injection molds, the core moves away from the cavity, which is stationary, and holds the part until it’s ejected.

The molds, or tools, used with compression molding and injection molding have some things in common but also some important differences.

Compression molding and injection molding are plastics manufacturing processes that each have advantages. No matter what you decide, you’ll make the right choice when you partner with Fictiv. Along with your request for a quote, you’ll receive design for manufacturability (DFM) feedback that can help you avoid defects and reduce troubleshooting. Fictiv works with a carefully vetted network of global partners, so why look for a molder on your own?

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Injection molds may also need sliders, lifters, or hand loads to release parts with undercuts. Compression molds can use sliders, too, but most compression-molded parts are simple enough not to require them. Adding ejection mechanisms to a tool increases costs, which undercuts one of compression molding’s main advantages over injection molding.

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Some composite materials are highly resistant to flow, and that makes compression molding the right choice since the material doesn’t have to flow through a series of channels. Examples include electrically-conductive silicones and fluorosilicones that contain metal, metal-coated, or bimetallic particles.

Typically, CNC machining transforms a block of metal into mold plates. Compression molds can be die cast instead, but the dies still require CNC machining. Most injection molds are produced with CNC machining. They can be produced with electrical discharge machining (EDM) as well, or with a combination of CNC machining and EDM.

Steel and aluminum are the most commonly used materials of construction for compression molds and injection molds. Both metals come in various types or grades. For example, compression molds can be made of soft, semi-hardened, or hardened steels. Grades of aluminum can be used instead, but aluminum can’t match steel for tighter part tolerances or tooling life.

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Compression molding can’t match injection molding’s part tolerances, but compression-molded components still have good dimensional accuracy. Compression-molded parts can also include features, such as threads, that support product assembly. With both molding processes, designers who use tolerance stack-ups can demonstrate how parts fit together.

Acetal (polyoxymethylene or POM) is a strong, stiff, wear-resistant thermoplastic with excellent dimensional stability. It is also known by the trade name Delrin.

The main difference between compression molding and injection molding involves the way that plastic or rubber enters the mold. Compression molding places a pre-measured amount of material into a mold, which is then closed and heated under pressure. With injection molding, the material is heated and injected into a closed mold cavity under high pressure instead.

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When comparing compression molding vs. injection molding, consider part size, part tolerance, part complexity, design rules, and surface finish. Otherwise, a part designed incorrectly or for the wrong process can result in molding defects like warpage and shrinkage.

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For compression-molded parts where cycle times are a concern, multi-cavity molds can help speed parts production. Post-processing is also a factor. Because injection molding is performed at higher clamping pressures, there’s usually less flash. For both molding processes, however, either manual trimming or cryogenic deflashing can be used.

Flash molds are the simplest, least expensive, and most popular compression molds. Because flash escapes between the parting line, however, these tools are often used with less expensive materials.

A compression molding press is a simpler piece of equipment than an injection molding machine. Loading a compression mold is a manual process, and an operator must physically close the tool. By contrast, modern injection molding machines are highly automated. Even the hopper where resin is loaded may be programmable.

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Compression molding is used with flat parts, thin-walled parts, and components with relatively smooth contours and simple geometries. It’s not a good choice for parts with sharp edges, steep angles, or intricate details. For complex parts, injection molding is a better choice instead. Examples include the intricate enclosure components that Lampix needed for an AR projector.

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Compression molding and injection molding both support overmolding and insert molding, processes that eliminate post-molding part assembly.

Bulk molding compound (BMC) is a thermoset composite that’s used only with compression molding. It has a dough-like consistency and is a combination of polymer resins, chopper fibers, and a hardening agent. Sheet molding compound (SMC), a polyester reinforced with glass fibers, is also compression molded because of its consistency.

During plastic injection molding, injection pressures can reach 30,000 to 40,000 pounds per square inch (psi). The clamping pressure is even higher so the mold won’t open while plastic is injected. Compression molding is performed at lower clamping pressures and some compression molds aren’t pre-heated. By contrast, injection molds require preheating to improve part quality. Cooling systems may also be part of the injection mold.

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Mold polishing or texturing adds complexity, however, which can undercut some of the main advantages of compression molding: simpler mold designs and lower tooling costs.

Three-plate molds have a third plate called the stripper plate that’s placed between the core and the cavity. Including this third plate adds costs and means the mold has two parting lines. Because the stripper plate separates the runner system from the molded part, it helps speed production. Three-plate injection molds are used only with cold runner systems.

These differences are important, but they don’t tell the full story of compression vs. injection molding. For example, compression molding has lower tooling costs but longer cycle times. That makes it a good choice for lower part volumes, but low-volume injection molding is also an option – if you have the right partner.

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Compression molding and injection molding both use heat and pressure to produce parts. More specifically, the molding material is heated so that it flows and fills the mold cavity. Pressure is applied to the tool to hold the mold shut. After the part cools, it’s released from the mold and may require post-processing.

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Compression molding also supports the use of thermosets, polymers that can be liquefied once but have better mechanical properties than thermoplastics. Although some injection molding machines support thermosets, most do not. That’s because thermoset injection molding requires special screws and barrels for the injector unit.

Compression molds are less expensive because they’re simpler and require less machining. Plus, they may not require release mechanisms since compression-molded parts can be removed from the tool by hand. By contrast, injection molds require metal ejector pins.

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Get machined parts anodized and chromate plated with our quick-turn finishing option. Eligible materials include aluminum 6061/6082 and 7075.

Tough Black (Loctite Henkel 3843) and Ceramic-Filled (BASF 3280) are two new advanced photopolymer materials now available for 3D printing.

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The four types of acetal we stock are all semi-crystalline thermoplastics. Delrin 570 differs from the others because it is 20% glass-filled to provide additional strength, stiffness, creep resistance, and dimensional stability. POM comes in two structural varieties, homopolymer and copolymer. The essential difference between these two is in the chemical structure, with the homopolymer using a chain of the same monomer (a carbon-based molecule), and the copolymer using multiple kinds of monomers to form the chain. The static dissipative version of POM is also a copolymer and a good choice for when you want to avoid issues with static discharge, such as near sensitive electronics where one zap from your finger can destroy a circuit board.

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Our helpful design aid demonstrates part features that are too thin or too thick, bad bosses, right and wrong ribs, and other considerations to be mindful of while designing parts for injection molding.

Injection molding has significantly shorter cycle times than compression molding. That makes it a better choice for higher part volumes, but low-volume injection molding can be used for projects ranging from 100 to 10,000 pieces. Below 100 parts, designers may want to use compression molding instead – but 3D printing or even urethane casting are also options.

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Injection molding also supports the use of family molds. These tools have multiple cavities, but they produce different parts in a single cycle. For example, an injection molder can use a family mold to produce the left and right panels for a two-part enclosure.

Injection-molded parts and compression-molded parts can both have a smooth surface finish. Designers can also specify a polished, glossy, or textured part finish instead. This desired finish is applied toward the end of the mold-making process and then during molding, is transferred from the mold to the surface of the parts.

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All forms of acetal have a lot going for them for machined parts. One of its most important features is its machinability. Endmills cut through it like butter, and those cuts tend to be clean and smooth. At the same time, precision parts can benefit from its high dimensional stability and tolerance for temperature and weight. Related to that is acetal’s strength and stiffness, which help it tolerate heavy loads. Acetal is also suitable for high-moisture environments as it is unlikely to swell in those conditions. Last but not least, that toughness means it’s also suitable for applications that experience friction. In some situations, it can even replace heavier metal parts, allowing for light-weighting.

When comparing compression molding vs. injection molding, determine whether the molding process you want to use can support the molding material you plan to select. There are many types of molding materials, but they can be divided into plastic, rubber, and composites.

Compression molding and injection molding can process many of the same thermoplastic resins. In addition, both processes support the use of commodity plastics and specialty plastics and polymer blends. Examples of these thermoplastics include: