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PLA vs PLA+/Plus Filament: The Differences

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by Brian Obudho
Jan 25, 2020

PLA and PLA+ (PLA plus) filaments have a number of similarities. But what makes them different? Learn the differences when we compare them side by side.

PLA vs PLA+/Plus Filament

The Great Mystery

The differences are hard to see.
The differences are hard to see. Source: Quinn / YouTube

The two most common filament types used in FDM printing are PLA and ABS. Both materials are thermoplastics, becoming malleable when exposed to high temperatures. PLA, however, has an enhanced version, called PLA+, which is touted as having superior features compared to regular PLA.

In some circles, PLA+ is defined as PLA with additives, but this only adds to the vagueness when trying to distinguish it from regular PLA. It’s true that the two have many similarities, and you have to be keen if you want to separate a PLA+ print from a PLA print.

In this article, we compare these filaments and try to shed some light on the ambiguity of PLA vs PLA+.

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PLA vs PLA+/Plus Filament


A beautiful Benchy printing in PLA.
A beautiful Benchy printing in PLA. Source: 3DBenchy.com

Polylactic acid (PLA) is a thermoplastic polymer made from renewable resources (specifically corn starch or sugar cane). This makes it more environmentally-friendly than other filaments that are created through non-renewable means.

To create PLA, clear, raw, granulated resin is put into a blender-like machine and mixed with additives and pigments. These give it specific mechanical properties and color. The final mixture is dried at 60–80 °C. The granulated material then goes into an extruder, where it is heated, mixed, and extruded into solid filament. The extruded filament is cooled into a round shape and coiled onto a spool.

PLA flows smoothly and rarely causes printing problems like nozzle clogging or warping. It can be used to print more detailed objects and will usually produce sharp corners with ease. Compared to other materials, standard PLA has a relatively low print temperature, making it convenient and versatile for printing.

PLA prints tend to have a glossy surface, and the amount of gloss will typically depend on the vendor, print temperature, and color. The filament is widely available is considered the “standard” material for home and office 3D printing.

Confusingly, many “next gen” filaments are threatening to take the place of standard PLA. One of them is PLA+, hence the PLA vs PLA+ conundrum.

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PLA vs PLA+/Plus Filament

PLA+ / PLA Plus

3D printed owl statue using bronze eSUN PLA+.
3D printed owl statue using bronze eSUN PLA+. Source: Jimmy Shaw's Tidbits / YouTube

There are no significant differences between PLA and PLA+. Even though the print settings, like printing speed and temperature, are practically the same, PLA+ tends to have slightly better surface quality, color, or mechanical properties.

Depending on the vendor, PLA+ is usually a mixture of other plastics, additives, or pigments that help in improving on the weaknesses of standard PLA, such as moisture absorption and brittleness.

The PLA vs PLA+ mystery is made more complicated by the fact that there is no standard formulation for distinguishing between PLA and PLA+. Manufacturers will typically add their modifiers and additives and remain tight-lipped about their formulas. They then simply market their product as having more benefits over standard PLA.

eSUN’s PLA+ is a perfect example. The manufacturer claims it is extracted and purified from corn grain and it boasts high rigidity, transparency, and glossiness. This filament is twice as tough as standard PLA and has no cracking problem, according to eSUN.

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Other examples of PLA+:

Most of these filaments are advertised as being stronger, less brittle, more durable, and better for layer adhesion. In many cases, they are described as being the “missing link” between PLA and ABS.

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PLA vs PLA+/Plus Filament


eSUN PLA+. Source: YouTube

Here is a list of aspects typically associated with PLA+:

  • Surface texture: Standard PLA has a rough surface both on the surface of the layers and on the outer part of the layers.
  • Overhang: PLA+ has better overhang properties that leave less stringing on the final print.
  • Print temperature: PLA+ typically has a higher print temperature than PLA.
  • Reflection: PLA+ has a glossy reflection that helps to showcase it better.
  • Strength: Based on a number of videos on YouTube, PLA+ seems harder to break. Users exposed it to various tests, including smashing, weight holding, and bending. When over-stretched, PLA+ bends while regular PLA snaps.
PLA Filament
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PLA+ (Plus) Filament
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License: The text of "PLA vs PLA+/Plus Filament: The Differences" by All3DP is licensed under a Creative Commons Attribution 4.0 International License.

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