11/28/2023 | News release | Distributed by Public on 11/28/2023 09:29
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Definitive Guide to
CNC Machining
Our downloadable guide offers tips on optimizing your design for machining, tolerances and threading considerations, choosing the right material for your parts, and much more.
Design Cube
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.
Proto Labs, Inc.
5540 Pioneer Creek Dr.
Maple Plain, MN 55359
United States
P: 877-479-3680
F: 763-479-2679
E: [email protected]
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Manufacturing Model
Our digital factories create prototypes and low-volume parts fast, while our manufacturing network, offers advanced capabilities and volume pricing.
Injection molding has a number of advantages. It minimises moulding costs and is a highly repeatable way of producing plastic or elastomeric parts with high precision. Once set up, it can manufacture a large volume of parts per hour, from a wide range of different plastics plus other materials such as liquid silicone rubber.
However, like any manufacturing process, it does have some disadvantages, and if these prove significant to the success of your project, then you may be better off exploring alternative manufacturing technologies such as 3D printing or CNC machining.
In this blog, we will take you through the main advantages of Injection Moulding and explore when it may be better for you to consider an alternative production method.
Once you have developed the molds, the process is extremely fast with cycle times as short as 10 seconds. It is excellent for medium and high-volume production runs for anything from 10,000 parts to well over 100,000 depending on what molds you use.
Sometimes you can increase production by using a multi cavity or family mold, where several parts are produced from one press to further increase the manufacturing rate.
If you are outsourcing your molding then it's also important to consider an efficient front-end design and order process - take a look at our on demand manufacturing.
For high output production runs the cost per part is very low. Even for medium volumes - in the range of 10,000 to 25,000 parts, you can keep the costs down by using aluminum molds instead of steel.
You can manufacturer identical products over and over again. This is ideal when you need to have parts with high tolerances and reliability across high volumes.
There is a huge range of plastic materials that you can select from depending on what properties you need from your final part. And you are not limited to plastic, Protolabs also offers liquid silicone rubber molding.
You can even use fillers in the molding material, which adds greater strength to the completed part, and you have a huge range of colors to choose from as well. Talk to us about what you need your part to achieve - there are generally a number of different options.
The injection molding process produces very little waste when compared to many other manufacturing processes. Even if there is any unused or waste plastic, you can recycle it for future use.
The process involves injecting molten plastic into the mold under very high pressure. This presses the plastic hard up against the molds allowing complex and intricate shapes plus a lot of detail.
Generally, you will need very little post production as the parts usually have good aesthetics post production. We can produce the tooling with a special finish which will show straight away on the injection-molded part. You can even have your logo or text engraved on it.
When should you consider alternative manufacturing methods to injection molding?
If you are committing to steel mold tools for high production volumes (100,000+) then it can take a great deal of time and machining to produce and this can be a significant capital cost. If you need lower volumes of parts then this will affect your cost per part price and it may be worth exploring other options such as using aluminum molds instead.
It can take up to 12 weeks to produce steel tooling. If you need to get production running before this then take a look at our on-demand production; by using aluminum molds and digitizing our front-end process we can ship anything from 25 to 10,000+ parts in 15 working days or less from the point that you first upload your CAD. Sometimes parts shipped in as little as one day.
For very low production runs there are other technologies such as 3D printing or CNC machining which could provide a more cost-effective answer more quickly.
You will need to consider certain design elements, such as:
You also need to consider where to place your gates, ejectors and cooling lines if aesthetics are important. And remember it's also hard to change the design of a mold - you can remove part of the mold, or add plastic to your final part, but not the other way round.
For smaller production runs, 3D printing allows you to design virtually any shape or geometry that you require. As a rapidly developing technology there is an increasing number of plastic and other materials, even metal, that we can produce.
Most people think that they should only turn to injection molding for orders of 100,000+ parts; but there are other options when you can use this process for smaller production runs.
Using more affordable aluminium molds and quick turnaround times (as fast as a day) our on-demand service helps keep your per part cost down. It is ideal for anything between 10,000 and 25,000 parts, but can help control costs for production runs even smaller than this.
For low production runs measured in the hundreds or less then it is also worth exploring other manufacturing technologies such as 3D printing and CNC machining. With these technologies the cost per part will be lower and you will not face the initial set up costs or lead times involved in producing molds.
Injection molding is an excellent manufacturing technology for producing mid- to high-volumes of parts in plastic and liquid silicone rubber. It is evolving over time so it is worth exploring new ideas which could help you reduce your part cost for smaller production runs.
It's also worth investigating whether other technologies such as CNC or 3D printing could provide a better option for small production runs or even custom-built parts.
As a digital manufacturer we can help you make the right choice for your needs. Make a start by uploading your CAD here.
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Proto Labs, Inc.
5540 Pioneer Creek Dr.
Maple Plain, MN 55359
United States
877-479-3680
[email protected]
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Proto Labs, Inc. is an Equal Opportunity/Affirmative Action employer