Skip to content

Thermoplastics as a substitute for metal additive manufacturing?

In the last few years, metal additive manufacturing has become increasingly popular. And rightly so: a variety of products can be made with it, be it prototypes, miniatures, jewelry, functional parts or even kitchenware.

Metal additive manufacturing technology enables the production of highly complex geometries due to the fact that is not constrained by the same rules associated with subtractive machining and other traditional manufacturing techniques. In fact, some 3D printed parts are already just as good, if not better. But there are more benefits. In this article we will first have a look at the other advantages that this relatively new technology brings. Then we will explain why 3D printing thermoplastics can be an even better and cheaper substitute. More and more companies are using 3D printing thermoplastics for crafting metal (like) objects as this has a lot of extra advantages compared to the standard process of metal additive manufacturing.

An item that is manufactured by 3D printing thermoplastics

The benefits of metal additive manufacturing

  1. You can produce complex geometries such as lattice structures and conformal channels to improve performance.
  2. You can merge multiple parts into single or fewer components to improve reliability and reduce inventory.
  3. It is a complementary tool that can be integrated into current manufacturing processes to reduce steps, time to market and cost.
  4. You can create fully bespoke or customized components to improve performance.
  5. Light weight – only build material where it is needed, reducing waste.
  6. Reduced tooling costs – parts can be manufactured directly without the need for tooling.
  7. Rapid design iterations right up to manufacture.

Thermoplastics as a replacement for metal additive manufacturing?

Many industries, such as the aerospace, medical, energy and automotive industry are realizing the potential of replacing metal additive manufacturing by 3D printing thermoplastics. Large scale, interior, or enclosure metal parts can easily be manufactured by 3D printing thermoplastics. Thermoplastic products can perform as well as and in some cases even outperform metal in ratios such as strength-to-weight and strength-to-stiffness.

An example of a thermoplastic that is a great replacement for metal is PEEK. It is a perfect material for mechanical engineers and manufacturers as it can be used for creating metal-like prototypes that can be tested as well as concepts and the final, finished products, which are ready for use. Metals like Carbon Steel, Stainless Steel, Titanium, Aluminum, Magnesium, Brass and Bronze can all be replaced by PEEK.

There are a lot of thermoplastic materials with PEEK and PEI/ULTEM™ being the most popular high performance materials. It depends on the requirements you have with regard to the material which one you can choose best. This concerns, for example, resistance to heat, corrosion protection, electrical conductivity and many other things. The big difference between metal and plastic is in the chemical structure of the two materials. However, we will not deal with macromolecules and atoms in any detail but briefly explain the main differences.

Why would you consider replacing metal additive manufacturing by 3D printing thermoplastics?

The advantages

1. Enhanced performance

Enhanced performance benefits include everything from extending lifetime by eliminating corrosion, increasing fuel efficiency with lower friction, and handling higher loads/speeds to operating in more extreme chemical environments.

2. Weight reductions of up to 80%

With 3D printing thermoplastics you can create lightweight objects that are still strong. The inherent low specific gravity of PEEK (1.3 g/cm3) is less than half that of aluminum and one sixth that of steel. Maintenance costs, logistics, installation – all see significant cost reductions in tandem with a decreased part weight. If you were to take a part made from steel made by metal additive manufacturing and compare it to the same part made from thermoplastic, the plastic part could be more than 6 times lighter.

3. Less waste

It creates minimal waste. Because, compared to metal additive manufacturing, 3D printing thermoplastic helps increase material efficiency it is used a lot in product development. Thermoplastic materials can be melted, cured (cooled down such that they become solid), melted again, cured again, and so forth. Therefor manufacturing waste can be reused (thus preventing it from becoming “waste” in the first place).

4. Greater design freedom

Greater design freedom comes from PEEK’s amazing processing versatility which allows complex geometries to be molded-in without labor intensive post-machining steps. This, in turn, helps engineers improve on performance while reducing total system cost. Simply said, you can make objects that can’t be made with metal additive manufacturing. Even with today’s technology, metal’s inherent characteristics prohibit complex part designs or shapes, such as compound curves or fluid designs from either a material capability or cost limitation.

The disadvantages

1. Design changes needed

Finding the right parameters for metal (like) 3D printing while designing takes some practice. Most 3D designs can’t be 3D printed without additional design changes. So you can’t take a part that was designed for plastic 3D printing (like PLA or ABS) and start printing away. Trying to make a plastic material fit a metal design would almost be like trying to fit a square peg into a round hole.
Most 3D objects designed for CNC milling aren’t compatible with 3D printing. CNC objects have more volume – if you just 3D print this object, it would be very costly. Every thermoplastic has certain properties you have to consider of in the designing process. You can get the specifications from the manufacturer or ask us.

2. It is not cost efficient to use for mass production

3. You can’t make very big parts (yet)

4 objects that are printed with a 3D PEEK printer

Want to know which specific advantages 3D printing thermoplastics can have for your business?

We are extremely passionate about our 3D printers. We put our hearts and souls in them and it fills us with pride to see that companies all around the world are using our products to grow their business. Before a company buys one of our systems we want to make sure that 3D printing is the right solution for them so that they can use our products in the best possible way. We would love to assist you also!

Just drop us a message here, chat with us or send an email to [email protected] and together we will find out which solution is best for your business!


Industries where 3D printing thermoplastic is being used

Within the 3D industry, one of the top notch materials is PEEK or Carbon PEEK. This high temperature material has amazing properties, such as chemical resistance, a low moisture absorption and great durability and strength.

3D printing PEEK as a replacement for metal is used in several different markets already due to its great capabilities. It’s one of the most reliable materials to print with, so it sees its application in objects that need great accuracy and strength. Here some examples of industries that are already using PEEK to further drive innovation in its fields.

Automotive industries

a Tractus3D industrial 3D printer next to a racecar

PEEK is being used increasingly in the automotive industry (read more here about PEEK 3D printing). It can improve fuel economy (the relationship between the distance traveled and the amount of fuel consumed) and reduce emissions in two ways. First, by reducing energy losses due to excess weight and second, by reducing friction losses in the powertrain. A 68% weight reduction in gears, for example, results in a 78% reduction in the moment of inertia which leads to a 9% increase in efficiency. The reason: low weight – i.e. reduced moving masses – and the lower friction losses typical of plastic, both of which help considerably when optimizing response or when accelerating or decelerating masses.

The automotive industry drives for weight reduction to achieve increased fuel efficiency needed to meet aggressive government mandates. Also noise reduction and low maintenance are important design goals. For example, by using PEEK as a replacement for metal in the gear, noise, vibration, and harshness was lowered by 3 dB – this is equal to a 50% noise level reduction for the human ear.

Aerospace industries

In the aerospace industry, PEEK sees for instance its application as a material for protecting wires. It can decrease the weight of wires, thus increasing fuel efficiency.

One of the world’s leading suppliers of interconnect products has worked to replace aluminum and stainless steel in their line of wire and tubing clamps. One electrical wire bundle clamp made with PEEK is 20% lighter than the aluminum clamp it replaced.

Imagine the weight savings as there are approximately 15,000 clamps used to secure the wiring and cables on a given. This translates to $23,000 per year in fuel savings as well as a CO2 emission reduction of 80 tons for each plane using this technology. Not only can this application help save airlines money and reduce air travel’s effect on the environment, but the clamps are also much easier to install. Installation time was actually reduced by 30%. This really demonstrates how PEEK is solving multiple problems to gain acceptance versus metal in one of the world’s most conservative industries.

A large motor of an airplane containing items that are produced with 3D printing thermoplastics

Dental and medical industries

Doctor showing a 3D printed prosthesis for a leg

Thanks to its favorable properties, PEEK can be used in many medical technology fields. For instance catheters are made from it. Due to its columnar stiffness and tight bend radius in thin walls, catheters are maneuvered more easily through a body’s pathways.

Another example is a medical device for applying dental fillings. The working parts, which are subjected to heavy mechanical stress, are no longer made of metal, but from PEEK. This reduces the weight of the device noticeably, thereby eliminating user fatigue. Furthermore, the plastic feels warmer to the touch than does the metal, thus making it more pleasant to handle when filling is applied. Furthermore PEEK lends itself better to sterilization and is more durable than titanium alloys. Its outstanding mechanical, chemical, and electrical properties make this plastic an all-purpose material for the medical industry.

Electronic industries

High performance polymer solutions offer greater versatility, reliability and design freedom for next-generation electronic devices and enable leading brands to produce cutting-edge products that are thinner, lighter and smarter. Such solutions are used in many consumer electronics and appliance components. Here, direct metal replacement is one approach, but it is also possible to integrate polymer with metal components to enhance performance and realize significant value.

From mobile device enclosures, switches, circuit boards, batteries and audio speakers to printers, sensors and connectors, polymer solutions are increasingly being specified by industry leaders to solve engineering challenges and differentiate a products’ ultimate performance and reliability. For smartphone enclosures, polymers enable designers to achieve the premium, high tech look and feel of anodized aluminum with structural integrity to handle abuse, both in the manufacturing process and in the hands of the consumer. For instance, in the appliances market, a 3.5dB (>50%) noise reduction and 2% efficiency gain are realized when polymers replace metal in refrigerator compressor valves, delivering real economic and consumer experience benefits for the consumer.

Assembling the 3D printed parts of a radio controlled aircraft

Energy industries

Businessman showing to others examples of how 3d printing thermoplastics works

Durable polymer-based solutions are extending the scope of oil and gas exploration and are helping to optimize production efficiency in hot, corrosive environments. High performance thermoplastic delivers long-term reliability and reduced downtime due to its excellent resistance to sour gas and harsh fluids.

Systems that can handle 3D printing thermoplastics

3D printing thermoplastics kickstarted a whole new renaissance in manufacturing. We understand that researching all the common types of 3D printers that can handle thermoplastics, can be frustrating. Each with their own advantages and disadvantages, and ideal applications are not widely understood. Whether your priorities are around surface finish, speed, functional parts, or implementation costs, one 3D printer and/or technology could make more sense than the other. So far, there are 2 main types of 3D printing thermoplastics that each have their own benefits and drawbacks:

1. Selective Laser Sintering (SLS)

This is a technique that gets its power from a laser to create 3D objects that are solid. This technology was created in the 80’s and it uses powdered material. During the printing process, the object is supported by unsintered powder.

SLS does not need a separate feeder for support material because the part being constructed is surrounded by unsintered powder at all times. This allows for the construction of previously impossible geometries. Also, since the machine’s chamber is always filled with powder material the fabrication of multiple parts has a far lower impact on the overall difficulty and price of the design. Through a technique known as ‘nesting’ multiple parts can be positioned to fit within the boundaries of the machine. One design aspect which should be observed however is that with SLS it is ‘impossible’ to fabricate a hollow but fully enclosed element. This is because the unsintered powder within the element can’t be drained.

With this form of printing you can use a wide range of materials such as ceramics, glass and certain metals. Despite a number of new companies attempting to develop cheaper machines that use different materials such as carbon or wax, the price is still relatively high due to the way in which it requires high-powered lasers.

Drawing of the selective laser sintering 3D printing process which is a substitute for metal additive manufacturing


  • Relatively smooth finish
  • No need for support structures
  • Ability to develop large tools and components
  • Ability to produce multiple objects at once


  • Relatively expensive machine
  • High operating costs
  • Large size machines
  • Not possible to fabricate a hollow object

2. Fused Deposition Modelling (FDM)

This type of 3D printing creates objects from the bottom up through the heating and extruding of a thermoplastic filament. The process begins with a model that has been designed using CAD (or similar software) and 3D printing software, which determines how the object will be broken down (sliced) into layers and how the extruder will create each layer. The thermoplastic is heated to its melting point before being extruded through the nozzle and onto the base, also called build plate. The dimensions of the object, determined in the software, are executed by the 3D printer that then controls the nozzle and the flow to follow a pre-determined path. As the object is created layer by layer, the melted thermoplastic bonds to the previous layer before cooling and becoming solid. Once a layer is created, the print head moves upwards in order to ready itself for the next layer. Small objects can be created quickly with exceptional detail but the more complex and bigger the object, the more time it will take.

As high temperatures are needed during this process, you cannot use a regular FDM 3D printer for it. Like our T650P you need a 3D printer that can withstand the extreme heat.

Drawing of the fused deposition modelling process which is a great alternative for metal additive manufacturing


  • Relatively inexpensive materials and 3D printers
  • Wide variety of print materials (also high-performance)
  • Ability to 3D print multiple objects on the build platform
  • Possible to alter a lot of quality settings to your needs


  • Not possible to produce very large parts
  • Quality output can differ a lot per manufacturer
  • Depending on the object size, printing can take some timeobject

Tractus3D thermoplastic 3D printing



 Most advanced   Competitively priced   You are always covered

A Peek 3d printer with next to it objects that are made with 3d printing PEEK
Our T850P PEEK 3D printer with Heated Chamber in an industrial setting

Tractus3D printers are born from a passion for perfection —a single-minded goal to build the most advanced and affordable 3D printers in the world. We differentiates ourselves by developing the most powerful PEEK 3D printers which are still affordable.

Our PEEK 3D printers boasts high printing speed, high accuracy and low weight, making it easy to move them around to any location you desire. The PEEK 3D printers are perfect for 3D printing smaller objects extremely accurately and have a good temperature stability due to the fact that the 3D printers have a closed chamber, minimizing the possibility of warping.

Build volume (mm)
200 diameter x 285 height (315 center)

Build volume (mm)
300 diameter x 380 height (405 center)
Including Heated Chamber

Temperatures up to 450 degrees

Inside the printer (extruder) itself, the temperature can reach as high as 450 degrees Celsius. Many other forms of 3D printers would suffer with internal burning if the temperature ever reached this high.

High accuracy and speed

Even though these 3D printers can handle temperatures up to 450 degrees, they offer the same high level of accuracy and speed as the other printers we offer. This means that you will never have to compromise on quality because you want to print thermoplastic materials that require high temperatures.

Flexibility in material choice

There are a wide range of materials  available for use in our 3D printer such as PLA, ABS, PEI/ Ultem™, POM and many more thermoplastic filaments.


When it comes to competition, there is not a huge amount out there offering a 3D printer like these, especially not at this price. Of course you want to compare. We would do the same! Tractus3D always strives to provide the absolute best 3D printers to the communities we serve, at affordable prices.

We routinely monitor prices of our competitors to ensure that we have the best offer possible. At Tractus3D we are very proud that the T650P is in the overview of Aniwaa: 'Best PEEK 3D printers and ULTEM® 3D printers'.

Do you have a question about 3D printing first? Please never hesitate to ask!

Please ask us any questions you have or request a free quote today. We are happy to help. We believe our product sells itself, so we’re just here to provide you with whatever assistance you need in researching the ideal solution for your business - in whatever way works best for you.

Please enter your name.
Please enter a message.

Want to learn more about Industrial 3D printing?

What is 3D printing?

When you want to know more about 3d printing, you sure also want to learn more about the benefits. Through creating layers, it opens a whole new way in which products are created and it offers a lot of advantages compared to the traditional manufacturing methods. Read more >>

What is FDM 3D printing

The 3D printing market is quite competitive, so there are plenty of different printers to choose from. Each printer has its own printing technology and unique capabilities, so it’s important to know which printer is most suited for the results you want to achieve. Read more >>

News about 3D printing

The way in which 3D printing has developed in recent years is nothing short of astounding and the possibilities for your product development are endless. We keep you updated about the Tractus3D printing solutions but also about the 3D printing industry as a whole. Read more >>

a FDM printing machine next to a desk

Desk series

With a 3D printer on your desk you can easily create small parts and specialized tools yourself. It is far less complex than other machines, which means that you can produce more products in an efficient and simple way without the high costs. The 3D printers in our desk-series have a high printing speed, a high accuracy and a low weight, making it easy to put on your desktop or move around. Read more >>

Man sitting behind his desk making a 3D model which he can send directly to his Industrial PEEK 3D printer for FFF 3D printing which is next to him

High temperature series

High-performance materials, like PEEK and ULTEM® (PEI) are stronger and more resistant than other thermoplastics, making them popular in a number of engineering applications. To 3D print such materials, you need a special printer that can handle very high temperatures. The High Temperature printers are designed for 3D printing high performance thermoplastics, which are strong and durable for long-lasting parts. Read more >>

Tractus3D big delta Industrial 3D printer 3D printing a big object

Large format series

The ability to use 3D printing to enhance business operations, reduce costs and improve efficiency is exactly why a 3D printer has become a popular solution. If you’re looking for a way to produce detailed and big objects our Large volume 3D printers are an excellent choice. They have a much larger build size than most other industrial 3D printers and can print objects fast at high resolution. Read more >>

Subscribe to our newsletter

Every month we release a newsletter with the most important items posted on the Tractus3D website.

Scroll To Top