In this article, we’ll take a look at common factors that influence the cost of injection molding, including equipment, labor, and materials – as well as tips for reducing manufacturing costs.
Injection molding is a manufacturing process used to produce parts by injecting molten material – often plastic – into a mold. The material is then cooled and solidified, and the finished part is ejected from the mold.
Injection molding is ideal for producing high-volume, high-precision parts with consistent quality. It is commonly used to create automotive parts, electronic components, medical devices, and consumer goods.
The cost of injection molding depends on factors such as part size and complexity, the type of material used, and the quantity of parts being produced. Typically, the larger and more simple the part, and the higher the quantity, the lower the cost per part.
There are different types of costs in injection molding, including equipment costs, mold and tooling costs, material costs, and labor or service costs. As stated above, these costs will vary, depending on complexity, size, quality, materials, and other factors.
These factors influence the cost of injection molding-related equipment.
Injection molding machine. This is the primary piece of equipment used for injection molding. The cost of an injection machine will vary depending on its size, complexity, and features, with prices ranging from a few thousand dollars to several hundred thousand dollars.
Molds. The cost of molds depends on the size, complexity, and material of the part being produced. A simple mold can cost a few thousand dollars, while a more complex mold can cost tens of thousands of dollars or more.
Material handling equipment. This includes equipment such as dryers, hoppers, and conveyors that are used to handle and transport the raw materials used in injection molding.
Auxiliary equipment. This includes equipment such as temperature controllers, mold heaters, and cooling equipment that are used to control the temperature of molds and injected material.
Tooling and maintenance equipment. This includes equipment such as mold cleaning and maintenance equipment, and tooling and machining equipment used to make and modify molds.
Tooling refers to the design and manufacturing of the mold or tool used to create injection-molded parts. Here are a few cost-related factors for injection molding tooling.
Mold design. The cost of mold design depends on the complexity of the part being produced, the number of cavities in the mold, and the level of precision required. This can range from a few thousand dollars to tens of thousands of dollars.
Materials. The most common materials used to make molds are steel and aluminum, with steel being more expensive but longer lasting. Overall, the cost of mold materials can range from a few thousand dollars to tens of thousands of dollars.
Machining. When machining is needed to create a mold, this can range from a few thousand dollars to tens of thousands of dollars.
Tooling maintenance costs. Molds require regular maintenance to ensure they are able to produce high-quality parts. The cost of mold maintenance will depend on the frequency of maintenance and the level of necessary repairs.
There are a wide range of materials suitable for injection molding, which vary in price.
Thermoplastic materials. Thermoplastic materials are the most commonly used materials in injection molding. They include polypropylene, polyethylene, and polystyrene, and typically range from less than a dollar to around $10 per pound.
Thermoset materials. Thermoset materials – such as epoxy and phenolic resins – are often used for applications that require parts with temperature or chemical resistance. Because they exhibit specialized properties, the cost of these materials is usually higher than thermoplastic materials.
Specialty materials. Glass-filled polymers, elastomers, and foamed materials can be used to achieve specific properties in injection-molded parts. The cost of these materials is generally higher than standard thermoplastic materials.
Colorants and additives. Colorants and additives such as UV stabilizers, flame retardants, and impact modifiers can be added to base materials to achieve specific properties or aesthetics. The cost of these additives depends on type and quality.
The costs of injection molding aren’t solely centered on equipment and materials. Like any business or service, there are many moving parts that require oversight and management. Here are a few of them.
Operator labor. Injection molding requires skilled machine operators to operate and maintain injection molding machines. As with any skilled position, exact costs depend on the location and the operator’s experience.
Quality control. Quality control is critical to ensure that injection-molded parts meet their required specifications. This may include the cost of manual part inspection, equipment to measure parts, as well as the cost of corrective actions or iterations.
Project management. As Protolabs Network manages your injection molding project from beginning to end, this cost includes things like labor, software tools, and associated overhead costs.
Shipping and logistics. Shipping and logistics are required to get finished parts to the customer. These costs will depend on the location of the injection molding supplier and the shipping destination.
You can take several steps to help drive down the costs of injection molding. Here are a few factors to consider.
Design optimization. Optimizing a part’s design can help reduce material costs and minimize mold complexity. Simple designs with fewer features can result in lower tooling costs, which can reduce a project’s overall cost. Our automatic DFM analysis identifies potential issues with your design, helping to reduce your costs.
Tooling optimization. Optimizing the mold design and manufacturing process can help reduce the tooling cost. Using aluminum rather than steel tooling, for example, can be a cost-effective option for low-volume production runs.
Material selection. Less expensive materials can reduce material costs, but it's important to balance cost with part performance – meaning choosing the right material for the job is critical. Protolabs Network is always available to advise on this.
Production volume. Higher volume production typically results in lower cost per part due to economies of scale.
Automation. Automation can help reduce labor costs and increase production efficiency. Consider incorporating automated or semi-automated systems in the production process to reduce labor costs.
Online manufacturing platforms. The right platform can cut costs of injection molding by offering instant quotes, fast turnaround, and help in selecting the right materials for the job, as well as connections to a large network of trusted manufacturers around the world.
To produce a part with injection molding, upload a CAD file to receive a free quote and comprehensive DFM analysis.
You can learn more about the injection molding process including important design considerations, and contact networksales@protolabs.com for personalized advice about your project.
You can reduce the costs of injection molding by optimizing design and tooling, selecting the right materials, considering production volume, and considering automation for your injection molding process.
Injection molding offers high production speed, design flexibility, and repeatability with precise tolerances. It is suitable for producing complex parts with consistent quality, and is the most cost-effective option for high-volume production.
Injection molding often comes with high initial tooling costs, limited flexibility for small production runs, and material and part design limitations.
Injection molding is widely used in the automotive, consumer goods, medical, and construction sectors due to its ability to produce complex and high-quality parts.
Injection molding can have high initial costs but is cost-effective for high-volume production. To reduce costs, optimize part design and tooling, select the right materials, and automate your process.
Injection molding is commonly used for producing plastic parts such as automotive components, consumer goods, electronics, medical devices, and packaging.
When producing parts with injection molding, understanding the range of materials that are available is crucial. Find out more about those materials, their properties, and factors to consider when choosing a material for injection molded parts.
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In this article, we’ll take a look at common factors that influence the cost of injection molding, including equipment, labor, and materials – as well as tips for reducing manufacturing costs.
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What are the most common defects in the injection molding process and how do you avoid them? This article provides six essential design tips for avoid production defects while reducing the cost and lead time of your molded parts.
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What is Delrin and why is it unique among the many manufacturing materials available? Delrin, or POM-H (homopolymer acetal), is used in CNC machining, 3D printing and injection molding to create durable, precise components. This article explores Delrin’s properties and how to get the most out of the material.
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What are the common applications of injection molding? What sets it apart as a manufacturing process? This article covers the key benefits of injection molding and provides insight into whether injection molding is right for your industry’s applications.
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Why is it important to design draft angles for injection molding custom parts? This article covers why draft angles are essential and how to design them better to get the most out of your injection molding designs.
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How do you optimize part design for injection molding? This complete guide to designing for injection molding provides basic and advanced design tips, including guidelines for creating snap-fits, living hinges and undercuts, and accounting for optimial surface finishes.
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What SPI surface finishes does Protolabs Network have for injection molding custom parts? Check out the standard SPI mold finishes we offer and our material recommendations to get the most out of injection molding.
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What is injection molding and how does it work? In this comprehensive introduction, we cover the basic principles of this efficient and repeatable manufacturing technology. After reading this article you will understand the fundamental mechanics of the injection molding process and how these relate to its key benefits and limitations.
Read article
This article discusses the use of 3D printing to print molds for low run injection molding. Design considerations, materials, molds configurations and a comparative case study are all included
Read article
When producing parts with injection molding, understanding the range of materials that are available is crucial. Find out more about those materials, their properties, and factors to consider when choosing a material for injection molded parts.
Read article
Find out about the manufacturing technique used to injection mold a second material over or around a part to create a new one.
Read article
Want to learn more about die casting? In this article, we’ll take a look at the process, its history and current uses, advantages, design guidelines, and more.
Read article
In this article, we’ll take a look at common factors that influence the cost of injection molding, including equipment, labor, and materials – as well as tips for reducing manufacturing costs.
Read article
What are the most common defects in the injection molding process and how do you avoid them? This article provides six essential design tips for avoid production defects while reducing the cost and lead time of your molded parts.
Read article
What is Delrin and why is it unique among the many manufacturing materials available? Delrin, or POM-H (homopolymer acetal), is used in CNC machining, 3D printing and injection molding to create durable, precise components. This article explores Delrin’s properties and how to get the most out of the material.
Read article
What are the common applications of injection molding? What sets it apart as a manufacturing process? This article covers the key benefits of injection molding and provides insight into whether injection molding is right for your industry’s applications.
Read article
Why is it important to design draft angles for injection molding custom parts? This article covers why draft angles are essential and how to design them better to get the most out of your injection molding designs.
Read article
How do you optimize part design for injection molding? This complete guide to designing for injection molding provides basic and advanced design tips, including guidelines for creating snap-fits, living hinges and undercuts, and accounting for optimial surface finishes.
Read article
What SPI surface finishes does Protolabs Network have for injection molding custom parts? Check out the standard SPI mold finishes we offer and our material recommendations to get the most out of injection molding.
Read article
What is injection molding and how does it work? In this comprehensive introduction, we cover the basic principles of this efficient and repeatable manufacturing technology. After reading this article you will understand the fundamental mechanics of the injection molding process and how these relate to its key benefits and limitations.
Read article
This article discusses the use of 3D printing to print molds for low run injection molding. Design considerations, materials, molds configurations and a comparative case study are all included
Read article
