What is the cost of injection molding? This is a commonly asked question by people wondering about adopting this technology.
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Injection molding is a popular manufacturing process for creating many parts and components. As such, learning about the costs of producing an injection molded part is vital before considering this process for your manufacturing operation.
This article examines the costs of injection molding. Understanding the factors that influence these costs will help you estimate your injection molding project costs.
After reading this guide, you can evaluate the exact manufacturing costs that injection molding will require for your particular requirements.
Let us get into the heart of the matter right away and answer the question: how much does injection molding cost?
What are the Different Factors that Influence the Cost of Injection Molding?
The base cost of an injection mold is not a fixed number that will be the same for every application. It is a varying value that can fall between a couple of hundred to hundreds of thousands of dollars.
This is a very wide price bracket. The exact value fluctuates based on several components involved in the injection molding process. These factors that influence the cost are:
The upfront cost of equipment for injection molding can vary greatly depending on its type and application.
There is small-scale injection molding equipment that businesses keep in-house. Then there are large injection molding machines typically used by service providers and those in the large-scale manufacturing industry with large production volumes.
Professional industrial injection molding equipment costs between $50,000 and $200,000. There may also be shipping costs involved. These machines are not for hobbyists and amateurs as they require skilled operators.
This is, no doubt, a big expense for any business. Therefore, most manufacturers outsource the injection molding process to experts like 3ERP with high-end injection molding machinery. Outsourcing makes injection molding a cost-effective option, in which the client can source the lowest cost for the part required and minimize the variable costs of production.
While the molding equipment is a one-time investment, creating the mold and mold base for the part costs money. It is an expense for every different part produced. Therefore, tooling costs are one of the most important driving factors for injection molding.
This cost can vary based on the process used to create the molds. Usually, three processes are employed for this purpose:
CNC machining is usually employed for metal molds. A stainless steel mold or an aluminum mold would be typical. For example, machining an aluminum mold uses cutting tools to remove material from an aluminum block. This method of machining creates aluminum molds with unmatchable preciseness.
CNC machining has a little drawback in terms of the machine cycle for making molds. These machines require setup time for the tooling and changing the tools for different cut shapes.
Electrical Discharge Machining is also known as EDM. This technology is utilized for creating molds with intricate shapes. It is accomplished by using electrical discharges to melt and bend the metal workpiece and give it the desired shape.
Just like CNC machining, EDM also has high accuracy. However, while CNC machining can be used for materials other than metals, EDM is only suitable for metal molds.
3D printing is one of the cheapest and fastest ways of making molds for injection molding. This process requires nothing but a 3D printer, so the expense is considerably less. Additionally, there is no need for skilled operators, saving labor costs.
Plastic injection molding offers a certain degree of versatility concerning the plastics you can use as the injection material. Some examples include ABS, PU, PE, PP, and PC.
The cost of material for plastic resin pellets used in the injection molding process is from $1 per kg to $5 per kg. The final cost of injected material will depend on the amount used, which, in turn depends on the design required.
Other materials that can be injected are different metals and liquid silicone.
Highly complex designs with more cavities and high mold polish result in extra costs. Such designs require research, development, and technical expertise. For this purpose, you can hire a professional or outsource the design process. Both options incur expenses.
Most steps involved in injection molding are automated and run by software systems. For instance, CNC machines are run by Computer Numerical Controlled software, 3D printers run on their own software, and injection molding also has automated processing.
However, there are some typical labor costs, as listed below:
Setup Costs: There are specific setup requirements for every step of injection molding. For instance, when making the molds, some setup of tooling is required. And setting up the mold and configuring the equipment during injection molding all involve an operator&#;s time.
Repair Costs: Injection molding is a mechanical process requiring multiple types of equipment. Therefore, there are bound to be repair and maintenance processes that result in expenses.
Operator Costs: Regardless of the self-regulated machinery used, an operator must oversee the process. The cost of the operator is something to factor into the labor costs.
There are three different types of injection molds, based on the number of mold cavities. These are:
Single cavity molds have one cavity inside. So they make one part per cycle time. While the cost of the mold is less, the production rate of parts is slower. This leads to higher part costs.
Multi cavity molds have multiple cavities inside, so they can make more than one part simultaneously. Although this type of mold has a higher initial cost, it leads to significantly lower part costs. It is a cost-effective solution for large quantities.
Family injection molds also have multiple cavities inside them. However, the part cavities are for different parts, so a family mold can simultaneously create different shapes of injection molded parts.
For example, you can manufacture the top and bottom ends for a plastic container in a single-family cavity injection mold. This type of mold cavitation is a more expensive option in terms of mold cost. But they make the overall production process faster and cheaper.
There are three different injection molding processes. These are:
This is the simplest type of injection molding process. The plastic is injected directly into the mold cavities to create the final piece. Of the three different molding processes, this one has the lowest cost.
This is a little more complex process than basic injection molding. It involves positioning metal inserts in the mold. Once the metal inserts are in position, the plastic injection molding takes place.
This process creates plastic parts with metal inserts fused directly into them. An example of this is the metal fasteners that you see inserted in plastic components.
The process results in a final assembly with greater strength than mechanically fixing the plastic and metal parts together.
Overmolding is also a little more complex than basic injection molding. In overmolding, an initial part is created using injection molding, let us say Part 1. Then, Part 1 is placed inside another mold, and another plastic injection molding process takes place.
The second process creates Part 2, which contains Part 1. This process is similar to insert molding, with the difference that, instead of a metal insert, both parts are created with plastic injection molding.
An example of this is the soft rubber grip that you see embedded into plastic and rubber products, such as toothbrushes.
The size and design of the part will considerably affect the cost. Large injection molded parts require greater material costs and larger molds. Similarly, complex designs may require a multi-step molding process.
The features of the final product also impact the injection mold cost. If the product has complex features, these might require small components made by a separate injection molding process. One way to lower costs is to eliminate unnecessary features during the design stage.
You might have seen that manufacturing costs per part become less when the production takes place in large quantities. The same idea holds true for injection molding as well.
When you are fulfilling a large production volume, you will require a corresponding large number of molds. However, the cost of the molds does not increase linearly. For example, if the cost of a mold is $1 per part for 100 parts, the cost for parts can be about $0.5 per part, and for 100,000 molds it can be $0.25 per part.
Similarly, the labor costs per part also decrease for larger production volumes. While the final cost of production increases for higher production volumes, you will incur significantly lower per part expenses.
If the manufacturer needs additional services such as polishing or secondary finishing for the product, these represent an extra expense. While it is not a part of the injection molding cost, the service provider might consider it an added cost.
Injection Molding Cost Overview
To get a better understanding of the plastic injection molding costs for a part for different production volumes, let&#;s examine a typical case.
Low volume production can be considered anything between a hundred to a couple of thousand parts. For these low-volume applications, manufacturers usually produce the molds in-house and do the molding themselves.
For low production quantities, manufacturers create molds of 3D printed polymer resin since it is cheap and doesn&#;t have to go through a long production cycle.
The entire production run for this volume takes about 3 days to manufacture the finished parts. For a 100-part run, let us assume the following parameters:
Cost per part = $4.5
Medium volume production can range between five thousand to tens of thousands of parts. For this production scale, manufacturers usually outsource the mold production and molding processes.
For medium-volume, let&#;s assume a 5,000 unit volume cycle of the same part.
Cost per part = $3
Large volume production deals with hundreds of thousands of parts. For this comparison, let us assume we are producing 100,000 parts of the same type.
Cost Per Part = $1.75
As you can see, the injection molding costs per part decrease significantly for high-volume production. Therefore, high-volume projects have the best cost-effectiveness for injection molding costs.
How To Reduce Injection Molding Costs?
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Injection molding is the preferred manufacturing process due to its cost-effectiveness and high reliability.
While the process is cheap compared to its alternatives, you can further reduce the costs. For that purpose, here are some pointers that you need to take into account:
A single part can be approached through different CAD designs. However, not every design idea is ideal. Some designs for the same part may lead to time and resource wastage. Therefore, simplifying part complexity through efficient CAD design ensures the best utilization of resources.
Complex features can call for complex molds and extra steps in the injection molding process. Therefore, eliminating unnecessary features results in a lower cost for injection molds.
In this regard, you can eliminate any features that are just for the sake of cosmetic finishes. This will end up saving money.
Bigger parts are not always better parts. When the size of the parts increases, so does the expense of injection molds required for the parts. If the same process can be accomplished by reducing the part size, it is a good idea to opt for it.
Make full use of the molds by reusing them for various applications. You can not only use the same mold for the same part but also for similar parts as well. This can be done by making adjustments or mold mods wherever possible.
Using technologies like insert injection molding and overmolding helps save costs in the long run. For instance, insert molding eliminates the need to create threads on the plastic for attaching it to metal parts.
DFM stands for Design For Manufacturing. DFM in injection molding refers to producing a part that serves the purpose of the customer and is within their stipulated budget.
For DFM, analysts consider several factors based on art, science, and technology to find the most efficient design, resulting in reduced injection mold costs.
Multi-cavity molds and family molds allow you to multiply the production rate and reduce the cycle time. This can reduce the cost of the entire operation by a significant margin, especially in medium to large production runs.
This is one of the most creative ways to save money on injection molds and simplify the design. Self-mating parts are the parts that attach to themselves when rotated 180 degrees.
The benefit of self-mating parts is that you can use a single half mold to create the entire part. It keeps the cost of the mold low, and the plastic injection mold size is half. This method increases the volume of production.
As stated in the plastic injection molds cost overview, higher volume means lower costs per part. This, combined with savings in mold size and number of molds, lead to significant savings in the final plastic injection mold costs.
Getting Injection Molding Quote For Cheapest Price and Best Quality
Now that you know the various costs associated with injection molding, one vital question remains unanswered. What will be the cost of injection molding for my project?
Generally speaking, to get an injection mold cost quote, you need to choose the manufacturer who can provide you with the best results at the cheapest rates. 3ERP is your answer in this regard.
3ERP provides every injection molding service you might require, from low-cost injection molding to mass production parts. There are even material options, such as thermoplastic, thermoset silicone, and metal injection molding.
Many established brands such as BMW, Lamborghini, and Electrolux already use the injection molding services offered by 3ERP.
The best thing is that you get your parts made by a world-class team of engineers using the most advanced equipment, without bearing any of the costs for the same.
The injection mold cost of 3ERP will come as an exact quote that matches your precise requirements. Therefore, you will not be paying extra for something you do not require.
Get in touch with 3ERP today to get an injection molding quote for your project. Whether it is a simple injection molding project or something that deals with inserts or overmolding, we handle it all!
Conclusion
Injection molding is one of the most widely applied manufacturing processes nowadays. Every day, you see and touch multiple parts created by this process, like bottle caps and plastic handles.
After reading this article, you now have a better idea about the plastic injection molding cost and how it varies from project to project. You even know about the cost variations that occur due to the injection mold cost and injection mold tooling cost.
Are you considering using injection molding service for your next project? Then send a query to 3ERP at our contact , and our team will reach out to you with the best price available for your requirements.
Frequently Asked Questions (FAQs)
Is injection molding expensive?
Not at all. Injection molding is one of the cheapest manufacturing processes. Even so, you can still lower the injection molding costs per molding cycle by following the tips suggested in this guide.
Which mold material is the best for injection molding?
Every injection molding material has its specific benefits. The perfect material for your injection mold will depend on your requirements and budget constraints.
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Injection moulding is a manufacturing process often used to produce high volumes of plastic parts. This manufacturing process starts by creating and machining a mould with precision to form the part&#;s features. Then molten plastic resin is injected into the metal mould cavity. The plastic moulded parts subsequently cool and are ejected from the mould cavity.
If you want to know more about the injection moulding process, read our Injection Moulding Guide.
Tooling is often a key part of the economics in plastic injection moulding, this is because it is a large up-front investment. And this cost needs to be amortised into expected part volume, over a number of years. If injection moulding isn't suitable, it is very possible 3D Printing or CNC Machining could be a better option. Depending on the parts' features, the machining of a complex mould will require more time and expense, increasing the upfront costs of the project. This is the main reason why injection moulding is mainly used for high volumes.
However, once you have the moulding tool, the plastic moulded parts will have a very low unit cost. And the tooling is usually CNC machined from a high quality steel, allowing more than one production run using the same tool, so it will last many years.
It is essential that the design of the injection moulded parts are carefully reviewed before production. Removing unnecessary features from the parts will make the tooling easier to machine. Read our Injection Moulding Design Guide to optimise your parts and get a better price for your project.
In this article Get It Made simulated the production for two different parts, a very simple small part, and a more complex larger part. You can see how prices vary between different common injection moulding materials and part quantities moulded.
Request your free injection moulding quote today and one of our engineers will personally review your project within 24 hours. They will then help fine-tune your project to make sure you get the best possible price and lead time for your injection moulding project.
Read our other pricing guides for CNC Machining, Aluminium Extrusions and Aluminium Die-casting parts.
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Below is a cost comparison between Nylon, ABS and Polycarbonate (PC) for a simple injection moulded part. The table/graph also compares how the number of parts ordered affects the price and lead time.
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No. Material Finish Quantity Unit Price Tooling Cost Total Cost<br>per Part Cost saving from 500x Lead time Days 1 Nylon As machined 500 £0.32 £3,816.00 £7.95 0% 30 2 Nylon As machined £0.14 £3,816.00 £0.90 -88.68% 31 3 Nylon As machined £0.13 £3,816.00 £0.21 -97.35% 33 4 ABS As machined 500 £0.29 £3,816.00 £7.92 0% 30 5 ABS As machined £0.12 £3,816.00 £0.88 -88.89% 31 6 ABS As machined £0.11 £3,816.00 £0.19 -97.61% 33 7 PC As machined 500 £0.32 £3,816.00 £7.95 0% 30 8 PC As machined £0.15 £3,816.00 £0.91 -87.42% 31 9 PC As machined £0.14 £3,816.00 £0.22 -97.22% 33&#;
For Nylon, going from quantity of 500x to x has a 88% total cost per part saving for a simple injection moulded part. For volumes around 500x and below, it can often be cheaper to CNC machine or 3D Print the parts depending on the design. This is because the high tooling costs are spread over a smaller number of parts, making each part more expensive. Going from x to 50,000x sees an additional cost saving of 9%. This demonstrates how increasing the part quantity significantly reduces part cost for smaller volume orders. However, as the order quantity increases, the reduction in unit price becomes less but still significant.
When comparing the three materials, the data shows that ABS is the cheapest material to manufacture with, and polycarbonate is the most expensive. The lead time only increases by a few days going from 500x to 50,000x. This is because the bulk of the lead time for an injection moulding project is manufacturing the mould and sampling. Once the mould produces parts to specification, part production is very fast.
If you want to know more about materials options for your injection moulding project, read our article about choosing the right Injection Moulding material.
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Below is a cost comparison between Nylon, ABS and Polycarbonate (PC) for a complex injection moulded part. There is also a comparison of how the price and lead time change according to the number of parts ordered.
No. Material Finish Quantity Unit Price Tooling Cost Total Cost per Part Cost saving from 500x Lead time Days 1 Nylon As machined 500 £4.03 £11,232.00 £26.49 0% 35 2 Nylon As machined £3.23 £11,232.00 £5.48 -79.40% 36 3 Nylon As machined £2.88 £11,232.00 £3.11 -88.26% 38 4 ABS As machined 500 £2.02 £11,232.00 £24.45 0% 35 5 ABS As machined £1.53 £11,232.00 £3.78 -84.55% 36 6 ABS As machined £1.35 £11,232.00 £1.75 -92.88% 38 7 PC As machined 500 £4.61 £11,232.00 £27.74 0% 35 8 PC As machined £3.63 £11,232.00 £5.87 -77.81% 36 9 PC As machined £3.28 £11,232.00 £3.50 -87.38% 38&#;
The data shows a slightly different trend for a larger, more complex injection moulded part than the simple/smaller one analysed above. There is a saving of 79% going from 500x to x in nylon and a further 12% going up to 50,000x. This shows that there are still substantial cost savings in manufacturing into the high thousands for larger, more complex parts. The price for 500x is comparable to 3D Printing as the tooling cost is a relatively smaller proportion of the unit cost than the small/simple injection moulded part.
The data again indicates that ABS is the most cost-effective to manufacture in out of the three materials, while polycarbonate is the most expensive. With an increase in quantity from 500x to 50,000x, the lead time only increases by a few days. This is primarily because most of the lead time in an injection moulding project is manufacturing the mould and sampling. Once the mould successfully produces parts to the desired specifications, the parts can be produced rapidly.
Read our article to find cost reduction tips for Injection Moulding projects.
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Ready to see how much your part costs to manufacture? Request a free Injection moulding quote today, and one of our engineers will review your project within 24 hours.
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