All About PET 3D Printing Filament: Materials, Properties, Definition

PET (polyethylene terephthalate) is the most common type of polyester material on the market. It is valued for its excellent mechanical, electrical, chemical resistance, and thermal properties. PET was patented in 1941 by Dickson and Whinfield when they combined phthalic acid with glycol-based substances. When used for fabric, PET is known as polyester, though it’s not technically the only form of polyester. Modern PET is composed of ethylene glycol and terephthalic acid. Ethylene is a colorless liquid derived from glycol while terephthalic acid is a solid crystal that comes from xylene. Beyond clothing, you’re likely to find PET employed for waterproofing, bottling, food packaging, Tupperware, and insulated bottles. This article will discuss PET primarily in the context of 3D printing and look at its uses, properties, and applications.

What is PET 3D Printing?

PET 3D printing is the process of creating a three-dimensional part using PET (polyethylene terephthalate) via additive manufacturing. This type of PET is a stiff, strong material used to make products for waterproofing, bottling, and food packaging. It’s one of the most popular materials for FDM/FFF-style 3D printing due to its chemical resistance, mechanical properties, and favorable melting temperature of 260°C. For more information, see our guide on 3D printing.

What is the Composition of PET Filament?

Polyethylene terephthalate is a type of polyester made through an esterification reaction of ethylene glycol and terephthalic acid. The ethylene content makes it colorless. The higher percentage of the repeated aromatic units in the polymer chain gives it strength and toughness. PET is valued for its good chemical resistance, mechanical and thermal qualities, and dimensional stability owing to its polyester structure.

Due to its thermal strength, PET 3D printing filament is used for automobile tire yarns, drive belts, seat belts, and fire hoses. It has largely replaced nylon. The chemical resistance of PET prevents it from reacting with food or water and thus makes it excellent for food packaging.

What Are the Properties of PET Filament?

The desirable properties of PET filaments are:

  1. PET filament has excellent mechanical, electrical, and thermal properties.
  2. Has good flow properties and low absorption features.
  3. It is FDA-approved for food containers

What Are the Limitations of 3D Printing with PET?

The advantages of 3D printing with PET filaments are:

  1. It is strong and affordable.
  2. The combination of its chemical resistance, thermal resilience, and mechanical strength makes PET filament a good fit for food packaging and bottled drinks.
  3. PET is completely recyclable and is often recycled in large quantities. Its recyclability helps limit its negative impact on the environment.
  4. It is transparent and can easily be colored for different effects and uses.
  5. It does not emit a toxic chemical odor like ABS.

The disadvantages of 3D printing with PET are:

  1. The crystalline form of PET is neither as strong nor as moldable as similar but more malleable polymers.
  2. It is prone to warping during printing, so care should be taken to evenly distribute temperature within the build volume.
  3. It becomes brittle when it absorbs moisture. Store PET in a dry, airtight container after use.
  4. It requires a low printing speed so that each printed layer can cool before the next one gets applied. This keeps the surfaces smooth and more even.

Why is PET Used in 3D printing?

PET is unique in that it is virtually shatterproof. It has excellent dimensional stability, good heat resistance, and strong chemical resistance. These properties make PET a desirable material for bottles, containers, and food packaging. It also makes it more resistant to tears.

How to Use PET in 3D Printing

Listed below are some tips on how to effectively print PET:

  1. Print in an enclosed chamber to maintain an even temperature distribution. This enclosed chamber prevents warping and rough surfaces.
  2. Allow newly printed parts to cure at room temperature for four hours.

What Are the Best Configuration Settings for PET 3D Printing?

The best configuration settings for PET 3D printing depend on the brand. However, general recommendations are in place. The required print settings are listed in Table 2 below:

Table 2: PET Filament 3D Printer Settings
Printer SettingsValue

Printer Settings

Extruder temperature



Printer Settings

Print bed temperature



Printer Settings

Nozzle temperature


No higher than 300°C

Printer Settings

Print speed


50-100 mm/s

Printer Settings

Metering temperature



Printer Settings

Mold temperature



Printer Settings

Retraction speed


30-80 mm/s

Printer Settings

Retraction distance


2-5 mm

Printer Settings

Layer height


0.25 mm

Printer Settings

Bed material


Glass surface

What is the Best PET 3D Print Speed?

The recommended PET filament print speed is between 50-100 mm/s. If printed too quickly, the edges and layers may warp or curl. If each layer does not properly cool before the next is laid down, the two won’t bind properly to one another.

What is the Melting Temperature of PET Filament?

PET filament melts at about 260-310°C. It is recommended, however, to check the manufacturer’s data sheet for accuracy as it varies depending on the brand.

Is a Heated Printing Bed Required When Printing with PET?

Yes, a heated printing bed is required. This printing bed prevents the bottom layers from warping.

What is a Good Wall Thickness for 3D Printing PET?

The good wall thickness is between 0.8-1.6 mm. The wall thickness determines the strength of the printed product and some designs need thicker walls than others. If the walls are too thin, the finished print might be fragile.

What is a Good Wall Density for 3D Printing PET?

The recommended infill density depends on the part’s application. An infill density of 15-50% is generally recommended for standard prints that do not need to be super strong. For parts that will be used for heavy load, 50-100% infill density is advisable.

Is PET Biodegradable?

No, PET is not biodegradable. The material is harmful to the environment as it is estimated to remain intact for over 450 years.

Is PET Recyclable?

Yes, PET can be completely recycled. This feature is one reason it has gained so much use in bottles and containers. It is often recycled in large quantities.

Is PET Hygroscopic?

Yes, PET is hygroscopic, meaning it absorbs water from the atmosphere. This property can cause printing problems like filament cracks, holes between layers, or fragile printed 3D objects. It is advised to store the raw filament in a dry, airtight bag or container when not in use. Additionally, proper drying before the melt processing is highly recommended.

What is the Difference between PET and PLA in 3D Printing?

PLA ($15-20 per kg) is more affordable than PET ($24-25 per kg). In terms of mechanical strength, PET is more rigid and durable than PLA.

What is the Difference Between PET and PLA+ in 3D Printing?

PLA+ is the more flexible and durable of the two. It’s made from biodegradable components and is cheaper than PET. However, PLA+ sticks poorly on the build plate, unlike PET. PET is safe for food packaging but PLA+ – and printed PLA+ in particular – is not. PLA+ has low resistance to heat, so finished prints are weak under high temperatures. PET, meanwhile, is resistant to high temperatures.

What is the Difference Between PETG and PET in 3D Printing?

PETG is largely the same as PET but is modified by adding glycol. The glycol gives PETG different chemical properties. PET solidifies in a crystalline form giving it more rigidity than PETG. This rigidity helps its prints maintain dimensional accuracy. PETG is amorphous and less rigid.


This article presented PET 3D printing filament, explained what it is, and discussed the different factors to consider when using it in 3D printing. To learn more about PET 3D printing filament, contact a Xometry representative.

Xometry provides a wide range of manufacturing capabilities, including 3D printing and other value-added services for all of your prototyping and production needs. Visit our website to learn more or to request a free, no-obligation quote.


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Team Xometry
This article was written by various Xometry contributors. Xometry is a leading resource on manufacturing with CNC machining, sheet metal fabrication, 3D printing, injection molding, urethane casting, and more.

All About PET 3D Printing Filament: Materials, Properties, Definition