Molecular Model Kit by EnoTheThracian

EnoTheThracian

Education>Other Education Models

Print Profile(1)

All

X1 Carbon

P1S

P1P

X1E

X1C bed, Textured Plate, PLA & TPU, 0.16mm adaptive layers

Designer

6.3 h

6 plates

4.6(5)

Open in Bambu Studio

Boost

Released

Description

Molecular Model Kit

Having had difficulties in finding the right Molecular Model Kit print files, I decided to draw my own. Of particular importance to me was the ability to represent different Carbon-Carbon bonds by TPU links.

As a result, the files in this model contain the most commonly used atoms and two different length links. While the atoms can be printed from PLA, PETG or pretty much any material capable of minor and modest overhangs, the links require a high flexibility material such as TPU.

While it is absolutely possible to print these models in the quantities to exactly fit your own molecule build wish, it is impossible for me to predict this. So please feel free to put together your build plates to suit your needs. As an example, I provide two plates to print out the repeating core of the PLA-molecule (PLA Atoms (C3H4O2)n) as pictured. To make the chain, print repeatedly and connect.

Update 05 Feb 2025: Due to user reports on difficulties with the deliberately very tight fit of the connectors, I have updated the print profile to also include scaled connectors with an easier fit. For straight and only slightly bent connectors, the “Normal Fit” is recommended. For bent bonds, such as SP², it may become neccessary to use the “Tight Fit”.

Atoms present:

Single bond, small nucleus:
- Hydrogen
- Fluorine
Single bond:
- Chlorine
- Bromine
- Iodine
Two bonds:
- Oxygen
Three bonds:
- Nitrogen
- Boron
Four bonds:
- Carbon
Five bonds:
- Phosphorous
- Bromine
- Iodine
Six bonds:
- Sulfur
- Metal

Comment & Rating (16)

@user_220543847

Boosted

The only issue I encountered was that when printed in PLA, the connections are nearly impossible to join, so I decided to melt the edges of the connections and fuse them with the atoms PS I printed a glucose molecule

(Edited)

The designer has replied

Show original

@EnoTheThracian

Many thanks for the kind boost and important feedback. Your print looks excellent :-D I will use your kind feedback to modify my published print profile so that the connectors fit a little easier. Since my own CNT project required SP2 bonds, I had to initially make a very tight fit due to the bond bend. In the meantime, scaling the connector to ~97% can work as a workaround.

@EnoTheThracian

Again, many thanks for your kind feedback and boost. In response to your comment, I have updated the print profile in order to give a choice of connector interference for an easier assembly. Many thanks again and my best wishes, Eno

@rotaxane

Boosted

Have you found any issue with the layer adhesion or strength of the bonds with linkers printed vertically?

The designer has replied

@EnoTheThracian

Many thanks for your kind and generous boost :-D The layer adhesion is pretty good with TPU. That was not an issue but the TPU does need to be freshly dried (even, or especially when new). What was slightly problematic was to get the connectors tight enough when bent for an SP2 bond. That is why it can be beneficial to scale them to 97%.

@Octagon

Print Profile

X1C bed, Textured Plate, PLA & TPU, 0.16mm adaptive layers

The TPU molecular connectors are very cool. I did end up scaling their X/Y down to 97% due to my generic TPU being a tight fit. Like that these use the 'official' colours also.

The designer has replied

@EnoTheThracian

Many thanks for your rating. I am very glad you enjoy the model :-D Also, I'd like to thank you for posting the 97% scale option for people facing issues with the connector. I initially made this model to create a CNT where Sp² bonds require quite a bit of flex. That is why they fit very tightly as designed.