Projects blog

3D printed Lamp series by UUP Design November 15 2019

Triin Kõivupuu & Andre Visnapuu are the founders of UUP Design, a design studio based in Estonia. Both of them studied at Pallas University of Applied Sciences, where they met. Soon they discovered that they share the same passion and ideas in design.



In the beginning, they brought their first 3D printer solely for prototyping purposes. However, as they discovered the capabilities of 3D printing, they soon fell in love with the final finish of the printed objects. Especially the Timebrfills natural finish fresh from the printer.

"At first, we didn't plan to build our series on 3D printing, but then we started to print with Timebrfill…" they explain.



When they started to print, PLA was their clear beginning choice because it is effortless to set up and print. Furthermore, the environmental aspect is also vital to Triin and Andre.

"By working with different materials, we are seeking special and economical solutions, designing future classics. We love what we do and hope it reflects in our products," said UPP Design.



PLA Extrafill and Timberfill are 100% bio-based and biodegradable materials. However, an industrial composting facility, where large piles are used, and aeration & moisture are appropriately controlled, is needed. Biodegradable plastics can be collected and composted through biowaste collection.

They created two collections, namely KUMA, the floor lamp & HÕÕG lighting series, with a ceiling lamp and a table lamp.



KUMA
Andre and Triin used PLA Extrafill that, when printed, exhibits pleasant texture. Ultimately the lamp gives out a cozy textilelike felling rather than the look of bleak plastic. White lampshade provides enough light for reading; it gives out a delightful mood light. The lamp is also made of elements such as textile cable, metal pipes, and metal socket, creating a charming ceiling lamp. It took about a year of testing and tweaking the product to finalize the design.



HÕÕG lighting series

UUP Design used Timberfill, which is a wood composite material with real wood fibers. The wood fibers display an authentic natural look and wood sensation. "Hõõg table lamp has a lightweight, and yet stable lamp rosette creating a lampshade which is 3D printed. Lampshades are minimal in design and inspired by the classic form," adds Andre. The dome design is created to conceal the light bulb, resulting in a clean appearance with mood hazy light.



"We couldn't be happier with this environmentally friendly material selection; all printed details are made with biodegradable plastic," Triin and UUP Design say in excitement. An important note is that this product has been designed, produced, and even packed in an environmentally friendly manner from the beginning to the end.



Printed with:

PLA Extrafill "Traffic White"
Timberfill "Light Wood Tone"
Timberfill "Cinnamon"

Follow UUP Design

   

Follow Fillamentum:

   

 
 
   


3D Printed Violin by Bence Balogh November 08 2019

With a BSc degree in Mechatronics Engineering and a Master's degree in Economics, Bence Balogh found a new love for something unusual. As he participated in the Conference of Scientific Students' Associations in the subject of "Examination of 3D Printing Parameters on the products mechanical properties," he found an interesting topic by HovaLabs, an open-source project, the 3D printable acoustic violin.




"I used to learn how to play the piano and the classical guitar for many years, and I also tried playing the violin. Unfortunately, my violin career only lasted for about a month. I was fascinated by the grace of the violin, and I adore when someone is playing it professionally. It became a must to make one in order to test the connection between 3D printing and music," Ben explains.



"The original Hovalin was amazing, so I consulted with several musicians, especially prime violinists. They gave me useful tips about how to improve and develop the model. It became my obsession to create the violin as realistic as I could, based on the Hovalin and the recommendations by the professionals. I am really satisfied with the result so far. However, I am still working on details and collecting feedbacks for further improvements. The 3D printed violin is an instrument, ornament, and something spectacular," says Ben with excitement. 




In the beginning, Bence used basic PLA for the prototyping as it is the most common material that's also very easy to use. He had to make a few alternations regarding the bridge, as the strings were too strong and broke the original bridge made of PLA. He decided to use CPE for the neck and bridge because of the strain and holding capabilities. In the end, the body of the violin is constructed from PLA Crystal Clear "Smaragd Green", and the neck with the bridge is made from more rigid CPE HG100 "Iced Green Transparent". Full bodies took 40-50 hours to print on the Creality CR10S. Even with the lower resolution, it took 20-30 hours with few iterations. This project was very time-consuming. 




"Many of my friends who play the classical violin helped me, so I learned a lot about the soul, body, and the creation process of a violin. On the other hand, I deeply absorbed 3D printing, maintenance knowledge, 3D design, and remix skills. The most important was to have the patience for this project and the ability to learn from my mistakes. My main goal was to bring 3D printing, music, and people closer together and to challenge myself. Whenever I show the 3D printed violin to people, I see the pure joy and curiosity on their faces, and I think this is the real achievement," Ben tells us. With the help of Stella Nagy, he was able to take breathtaking pictures in The Palace of Music in Miskolc, Hungary.



Printed with:
Body: PLA Crystal "Clear Smaragd Green"
Neck, bridge: CPE HG100 "Iced Green Transparent"

Printed on: 
Creality CR10S

Follow Bence Balogh

 

Follow Fillamentum:

   

  
  
   

 


Mechdonalds Printed by Grafit February 27 2019

He is from Hungary and we met on Twitter while he was using our materials for really nice and clean printing. “I am already helping Fernando with his top secret project, beta testing at 40% size”. We knew we are on the same page to make some good collaboration!

*Fernando Jerez is our long-time friend, he’s talented designer who started the wavey madness with his generative design.

Hello Grafit,
When I was asking you about some ideas for a new bigger project, you wanted to print exactly this amazing design by Juri Pranjic. How did you find the model?
I have seen this earlier on Twitter when Juri designed it and started printing his own. I became a follower of @3dworkbench instantly.

Two materials in seven different colours, tell us more about the printing process ... Which printer you used, how long did it take to print? Did you use any tricks or special set up for printing?
Well, the CPE Red Hood filament was a completely new material for me. And because it needed high temperature, I used my Prusa i3 MK3 for that job. No failures there. It came out nicely in the first round. On the pictures you can see, it is the tomato slice.
Since I scaled up this awesome model to 140% I had to use some tricks. For example, on the original model, every part of the burger is solid. However in a perfect world, you will never see the inside of the tomato slice, and the meat etc. so I decided to cut out most parts. The tomato slice is a ring eventually. I will post some making-of photos on my twitter later.
Ender 3 printed the burger buns (Light Ivory PLA), and the limbs (Vertigo Grey PLA). Everything else was printed on the Prusa i3 MK3.
Fries & Cheese (Melon Yellow PLA), Lettuce (Grass Green PLA), Meat (Purple Red PLA), Shields (Traffic White PLA)

Did you have any issues with stringing on CPE? Because when it’s moist, it can be  hairy printing.
Moisture did not get any chance since that was a perfectly packaged brand new spool; and after printing, I put it right back to the reusable ziplock bag. :)

It’s not an easy design but definitely worth it. What did you need for assembling it?
For the burger, I have used hot glue gun. And I designed and printed a custom fitting ring for some of the parts. The legs and arms are just slide in. For the thrusters, I used a small strip of kapton tape to make some friction so they would not fall out.

With upscaling to this giant size there can be an issue with stability which isn’t there in the original size. We almost didn’t manage to make it stand. Do you think it’s something what can decrease the head part weight to reduce the pressure on the legs? Of course he is super-awesome while sitting too, but.. : )
Yeah, the upscaling generated some issues with the tolerances. His joints became a lil’ loose. I think the main issue are the knees. I would glue them to a fix position, or drill and use a screw and a nut through the knee joint. I was able to get him standing with fries box on his back. :) I have a proof.

What are your feelings from Fillamentum materials?
I really love just everything about Fillamentum. The box, reusable ziplock packaging for moisture defense, beautiful glass clear spool, and of course, filament itself. It comes in beautiful vivid colours and quality material. I’ve never had any problems related to the material. Oh, and the surprise stickers! :)
Thank you 💛

The world is divided into two parts…. Ketchup or mayo to your french fries?: )
Lol! Ketchup.

Any ambitions for next projects?
I really like multipart models where you can combine a lot of filaments together.
That is where nice colours and glittery materials can show their beauty and form awesome combinations together. So definitely I would print something big, multipart thing with perfect material combinations.
I recently started to paint some models but then you can just use any filament. :)

 

Laila for scale : )

 Patreon:

Cults:

 Recipe (material list):

 

Follow Grafit:

   

Follow Juri Pranjic

   

Follow Fillamentum: