3D Metal Printing – An Overview
3D printing is a technology which has captured the headlines, with stories about the increasingly sophisticated projects that can be built. Although it may seem relatively new, the technology has been around for some time having first emerged during the 1980s. However, further developments have seen 3D metal printing go from strength to strength and it now has the ability to be used practically for a great range of projects and functions.
How does a 3D metal printer work?
Metal 3D printing is a type of additive technology, not subtractive which means that material is gradually added to get the finished result rather than being taken away (such as in turning or milling).
3D metal printing process
A 3D metal printer needs a CAD design to start the process, creating a detailed image from all angles of the desired design. Once the CAD software has been used to complete the design, it then needs to be converted into a .stl format to enable the 3D metal printer to interpret the instructions.
The metal printing process is a multi-layered approach, just like other forms of 3D printing and requires the design to be sliced very finely on the horizontal plane before it can start to be built. The 3D metal printer receives its instructions from the computer which instructs the Laser what shape to trace out across the powder. The Laser then pulses and heats up the metal powder which creates a solid form. This is how 3D printing in metal begins.
Once this initial base has been laid out the 3D metal printing process begins again, each layer typically no more than 0.1mm thick. This very gradual process is how metal 3D printers create the final product, with the heat from the Laser forming a solid shape. This process is known either as Direct Metal Laser Sintering or Selective Laser Melting, depending on the heat used and whether the powder is melted completely or just heated enough to fuse together.
What can be made?
The possibilities which open up with 3D printer metal techniques are almost limitless and designs which were either impossible or extremely expensive to make are now far more viable.
With 3D printing, metal can be shaped far more easily and incredibly complex and intricate designs are far more achievable. This could be as complex as tubes within tubes, hollow middles with undercuts and overhangs, or just superfine layers previously too delicate to cut. The 3D print metal will take on the shape which the Laser is instructed to form, which means the only real limitation is what you can design.
What’s the difference between 3D rapid prototyping and 3D laser printing?
When it comes to 3D metal printing, UK media coverage has been immense, putting the technology firmly in the limelight and showing off exactly what could be possible – even going as far as showing a house that was constructed this way.
But although the printer works in the same way as a 3D rapid prototype, there is a large gulf in quality and performance. Both are built on the same core concept but a rapid prototype machine is designed to handle larger sizes and will be pinpoint accurate by comparison.
3D printing with metal is far more complex than using other materials, and more expensive too. The extremely high temperatures mean than 3D printing in metal is far less accessible to home users than plastic, for example. There are a number of 3D printers suitable for home use but laser printing on metal is not normally available other than in industry.
What are the benefits of 3D printing metals?
With 3D printers metal has far more flexibility and the ability to create cheaper and more complex moulds becomes possible.
There are a number of benefits of using a 3D printer or rapid prototype machine for metal:
- Greater range of shapes and designs possible. The complexities which are possible with 3D printing couldn’t be achieved via other methods.
- More cost-effective. For low volumes of manufacturing, 3D printing provides an economical option which can be individually tailored to meet requirements.
- Strong and robust finish. As the design is created as a continuous piece rather than having multiple welds and joins, there’s no weak spots making it stronger overall.
- Lightweight. The ability to work with such eye-wateringly small slices at a time means designs can be created which are super-thin, reducing the weight of a product.
- No waste. All the powder left unused in the process of 3D printing can be saved and used again. Unlike traditional machining methods, there’s zero waste which means it’s an eco-friendly choice.
- Fast. Although a mould may still take a couple of days to print – for more complex designs at least – this is an extremely rapid process by comparison to other methods.
- Easy to tweak. If you need to change the design, the process is simple and only requires a few buttons to be pressed rather than an expensive and lengthy re-design.
- No need to stock expensive designs. With 3D printing, providing you have the materials to run the machine, there’s no reason for any item to be out of stock. All you need is the .stl file and you can print a product whenever you need one.
More to come…
The 3D metal printing industry is just starting to hot up and despite the many recent developments, the speed of research means that there’s a very good chance this type of technology is quickly going to snowball, becoming far more commonly used in everyday manufacturing and further uses identified.
To find out how we can improve your 3D metal printing processes please call us today on 01489 779696 or you could complete our online enquiry form.
If you enjoyed reading this article, why not register for future articles?