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I've been 3D printing for a while and I've noticed that, when printing small parts, my colored plastics (PLA, PLA+ and ABS) have better layer adhesion than black ones.

Did you notice this?

What could be the cause?

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  • $\begingroup$ is that about several manufacturers or are you only testing one? $\endgroup$
    – Trish
    Jan 16, 2019 at 9:38
  • $\begingroup$ Several, mostly chinese manufacturers. My theory is that black filaments specially PLA ones have most scrap materials in it. I've printed the same piece in all materials that I have and colored prints are almost indistructible while black ones are fragile and delaminate easily. $\endgroup$ Jan 16, 2019 at 9:59
  • $\begingroup$ Would you be able to quatify your findings for example with a tension test of some sort? $\endgroup$
    – Trish
    Jan 16, 2019 at 10:00
  • $\begingroup$ No, I did not test. I just tried to twist pieces until the broke, I couldn't break colored prints while I could easily break black ones. $\endgroup$ Jan 16, 2019 at 10:08
  • $\begingroup$ what is your sample size on the test? I mean, how many different filament batches did you do this test on? $\endgroup$
    – Trish
    Jan 16, 2019 at 10:15

3 Answers 3

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I have some experience in the textile industry and it is known that items, whether piece goods or yarn, which are black (for most fibers) it is likely an over-dye; colors that failed to match the color that was intended, goes into a pile for black re-dye. It is easy for most fibers to over-dye something black. I imagine that for filaments it is something similar. My experience with black filaments is generally one where black breaks easier, and generally you can find PLA on sale if it is black.

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  • $\begingroup$ Welcome, Jim. I'm not sure the process is analogous, since the filament would have to be melted down to be re-colorized. Please take the tour and thanks for joining. $\endgroup$
    – Davo
    Nov 25, 2020 at 21:26
  • $\begingroup$ I was speaking in general terms, that black is a re-process of other, generally failed, colors. I agree with you that it would likely be re-melted, and I guess that is my point; black is a re-melting and re-dyeing result and - probably because of this - is somehow inferior in strength. I imagine the re-melting is the cause. Jim $\endgroup$ Nov 28, 2020 at 20:04
  • $\begingroup$ Yeah, re-dye can be done. And I think you are on spot with your answer. I've printed Km and Km of filaments as of today and the fact that black filaments are more brittle, indipendently of the brand, is a costant to me. $\endgroup$ Jun 30, 2021 at 15:32
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Not inherently.

There are two things at work that might cause one color to test weaker than others even as its properties otherwise are functionally identical:

  1. A bad print among good ones.
  2. A bad roll among good ones.

Let's take a look at both, then do a little excursus into plastics and color.

A bad print

There are probably thousands of reasons a print might fail, but bad layer bonding and squish-ability under torsion strongly hint to under extrusion. Now, under extrusion itself can be caused by a plethora of reasons: a clogged nozzle is equally as possible as too thinner diameter as is just a bad temperature. The last one is, in my opinion, the most likely culprit: filaments may look the same and feel the same and bond the same, but in different colors, they sometimes demand different print settings.

As an example, I print most of my Kaisertech PLAs at 200°C, as that offers a quite good result for all of them. Yet when I started I had a white China PLA and a crystal clear PLA from the same manufacturer, both came from the same warehouse in the same shipment. The clear one is quite more brittle on the roll, but their starting-to-print temperature differs by 5°C - the white started to extrude at 180°C decently and printed ok at 195°C-200°C, while the clear needed only 175°C to start to be extrudeable and was really printable at 190°C. Yet recently I tried the same roll again to achieve fully clear prints, and with 210°C and lots of overextrusion, I managed to go almost solid-clear. Because of such experience, I suggest tweaking the settings.

A Bad Filament

There are several reasons why one roll might resulting in bad prints, but the most prominent are that the roll has gone bad over bad storage. It might be stored too hot or too humid, making it brittle or bubble in the hotend. Aging under UV plays a role (it degrades PLA). And dimensional accuracy plays a role because it affects the whole roll of filament. This is why tests should always be performed with equally treated and measured samples to achieve comparability.

Excursus: Plastics and color

What gives a plastic its color? Pigments added to it. Now, pigments can be of varied kinds. Usually, they are embedded in the plastic (=not bonded to the carrier plastic), and the plastic polymer is often either inherently transparent(ish) or white. Let's take some examples to look at...

  • Yellow. Yellow can be made from a lot of stuff but many yellow pigments react to UV light by decay more than other colors, leading to yellow to fade quickly in comparison to other colors. It has varied chemical compositions, often they can become quite complex.
  • Black. Black pigment is typically the most simplistic coloration to achieve: pure powdered carbon is one of our most potent black pigments, and also one of the cheapest, making black plastic one of the most common plastics. In contrast to other colors, carbon can't fade. But the plastic around it decomposes and turns white, fading the color this way.

Now, most colorings are - in physical terms - sizeable. Some few to a couple dozen atoms, making them range in the Angström (~Atom diameter) to few nanometer area overall. However, even something as complex as $C_{22}H_{20}O_{13}$ (Carmine) is relatively small compared to the $(C_3H_4O_2)_n$ of PolyLacticAcid, aka PLA. Poly tells us that n is at least 100, because shorter chains are oligomers, not polymers. In comparison, our red carmine pigment is more dense, much more compact in fact. As a result, a 100-chain of PLA is not just in the Angstöm area but in the dozen nanometer to micrometer range - a magnitude of at least 2 larger. Unless we have a huge excess of pigment or a pigment that reacts with the plastic under heat, then the impact of it on the strength should be neglectible to the other fillers often used.

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Your heading is about how brittle the material is, but the question is asking about layer adhesion. I'll go ahead and tackle the layer adhesion portion. There are many variables at play here but unless you are using two filaments fresh out of the box, I would guess moisture might be the issue.

Moisture

The filaments pick up moisture as they are left out or even just store. I've tried to prevent it, but nothing seems to work. When this happens you generally need to run the same filament a bit hotter to get the same results as a new roll. Comparing a new roll to an old roll, or even two rolls of questionable quality, will result in slight changes.

Bad Quality

Filament quality goes a long ways to making sure the print comes out consistently. Dimensional sizing is the main one the gets thrown around, but once again, moisture may creep in if the manufacturer is questionable. I use Hatchbox mainly and have not had an issue on either of these fronts. Poor dimensional quality will cause either under or over extrusion which can make the layers appear worse and is impossible to fix without buying a new roll as the filament itself is the issue.

Color

Can color make a difference? Perhaps. I've wondered if black heats up quicker than white filament. I have gone through quite a bit of white and black PLA from the same manufacturer and so far have notice no major difference between the two.

Brittleness and Layer Adhesion

I don't see how these two would have much to do with each other. There are too many variables between the heating and the cooling of the material for brittleness to have a major effect. For example, PLA is brittle but prints well. TPU is very flexible and prints well - it all depends on what your setup is.

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