While manual machining of parts has existed since 1300 BC, CNC machining wasn’t developed until the mid-1940s. The first control mechanisms that eventually were used on CNC machines were used to punch code tapes as a way of communication. In 1949, the first experimental 3-axis milling machine was created to make helicopter blades and stiffer skin for various aircraft. In the 1970s, CAD and CAM software began to be integrated into CNC systems. Now, CNC machining is one of the most widely used manufacturing methods in the world. It is used to make products for several industries, from automotive to agriculture. CNC machining is often preferred to injection molding due to the ability to easily accommodate product design changes, its ability to produce tight tolerance parts, and the possibility of using several different materials.

Plastic injection molding is a manufacturing method that uses an injection molding machine (IMM). These machines contain components such as injection screws, injection barrels, and fabricated molds. Plastic pellets are fed into the barrel and are melted through the rotation of the screw and heater bands. The molten plastic is injected into the mold and formed into the geometry of the part. The IMM holds pressure on the mold until products have been properly formed and cooled. The completed parts are ejected and the cycle restarts.

Speed comparison: Both CNC machining and injection molding are notable for their ability to rapidly produce parts. For small-volume runs, CNC machining is often preferred. Injection molding is preferred for larger runs because multiple-cavity molds can rapidly produce parts and reduce per-piece cost. Taking into account the lead time for mold production, it takes longer to start series production using injection molding than using CNC machining. Consider using CNC machining for small production runs and injection molding for large runs.

Cost comparison: Tooling costs for CNC machining are significantly less than for injection molding. CNC machining costs are associated with the fabrication of fixtures and jigs and the procurement of raw materials and tools. Molds for injection molding can cost a few thousand dollars for single-cavity and low-cavitation molds and up to hundreds of thousand dollars for multiple-cavity molds. An injection mold will pay for itself when its cost is spread over a sufficiently high production volume. Assuming you have the necessary machinery to make parts and only need to make arrangements for tooling like molds, fixtures, and jigs, upfront costs on CNC machining are lower.Â

Perhaps the biggest similarity between CNC machining and plastic injection molding is that both can utilize many of the same materials, including polycarbonate (PC), High-density polyethylene plastics (HDPE), and ABS (acrylonitrile butadiene styrene). Aside from that, there are not many similarities between the two processes.

CNC machining is a subtractive manufacturing process that uses machines like mills, lathes, drill presses, and saws, to make highly precise parts. Computer-Aided Design (CAD) data is developed during the product design phase. This CAD data is then used as the basis for programming and optimizing the machine tool sequences and paths. The material is then processed using cutters, such as end mills and drill bits to create the parts. Auxiliary machinery, including honing, hobbing, or grinding machines, may also be needed to complete parts to customer specifications.

Materials comparison: A broader range of materials can be used in CNC machining processes than in injection molding. CNC machining is capable of producing parts from certain plastics, but also from metals, like aluminum and steel. Many thermoplastics, thermosets, and elastomers are too soft to be CNC machined. However, they can easily be fabricated into parts using injection molding machines.

Picking an appropriate manufacturing method for a new product is often easier said than done. CNC machining and plastic injection molding are both commonly used and cost-effective ways to produce parts. While both methods are similar in those regards, they are completely different fabrication methods. CNC machining is a subtractive manufacturing process that uses metal cutters to remove material from a workpiece to create the final part shape. Plastic injection molding forces liquid plastic to conform to the shape of a mold to make the finished part. Three major differences exist between the two methods. These are materials that can be used, the volume of production that can be attained, and part dimensional tolerances and precision.Â

As always, be sure to fully outline the requirements and specifications of your project before moving forward with manufacturing and material choices such as mold material. If you have any questions, RevPart is here to offer our expertise and help.

If you’ve been reading our blog for any period, you’ve likely noticed that we’re big proponents of seeking the right material for the right application (whenever such flexibility is possible) in spite of what “conventional wisdom” might tell you. In the world of manufacturing and plastic injection molding, there are more variables and, thus, more options than you might think.

Volume comparison: Injection molding can both produce more parts per base machine and more parts per dollar invested compared to CNC machining. Molds used in injection molding can have multiple cavities - from one cavity to several hundred. Hence, injection molding can quickly produce large numbers of parts. In CNC machining, parts are generally made one by one. While CNC machining is fast at producing parts, injection molding is even faster.

These differences lead to significantly different costs for the two processes. In this article, we discuss everything there is to know about CNC machining vs. plastic injection molding, including the advantages and disadvantages of each, and process alternatives to both.

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Brothers Isaiah and John Hyatt developed injection molding in 1872 and used it to mold hair combs, buttons, and other small items. In the 150 years since that first machine, injection molding has blossomed into a multi-billion dollar global industry. Injection molding is considered a more cost-effective and efficient way to make plastic parts than CNC machining.

Table 1 shows a comparison of different attributes and properties of CNC machining compared to plastic injection molding.

Xometry provides a wide range of manufacturing capabilities, including CNC machining, 3D printing, and other services for all of your prototyping and production needs. Get started on your plastic injection molding quote or CNC machining quote with us today.

You’re also likely familiar with the potential for aluminum injection molds instead of steel injection molds in certain scenarios, since the advantages of aluminum — in the right situations — have been broadly discussed regarding injection molding. Priorities and requirements are different for every project. In this piece, we’ll take a side-by-side look at some benefits and disadvantages of aluminum molds and steel molds for 10 key factors.