May 30, 2017

3D Printable Low Cost Servo Based RobotQuad

If you have some extra cheap servos and an Arduino you can use them to make this open source quadruped RobotQuad. It was developed by Regis Hsu and as open source project and its design is updated frequently. It should be a very affordable thing to build as all the servos needed will cost some 20 USD.
In the linked Instructable there are also possibilities to make a remote control unit and IR obstacle detection.

Here is the version 3.0 whit some dance music:

Detailed build instructions can be found at:

Hari Wiguna made a video about his build:

I really like the DIY aesthetics of this robot:

May 29, 2017

Happy 9th birthday RepRap!!!

First RepRap replication happened on this date 9 years ago!!! Happy birthday RepRaps!!! It has been amazing nine years...

Source by RepRapLtd

May 28, 2017

3D Printed DIY Leather Stamps

Black Beard Projects made a video where he shows how he designs leather stamps in Fusion 360 and how he uses them to make patterns with a hand press. With this method, you can make any number of highly custom stamps you need without buying them or waiting for delivery.
It is another great example how 3d printing can be used in even more traditional handcrafts.

Here is the creator's FB page:

Here is the close-up of the stamp making a pattern on a hand-made leather knife sheet

May 22, 2017

Aleph Objects and IC3D Develop First Open Source Filament

Aleph Objects, makers of the LulzBot brand of desktop 3D printers and parts announced a partnership with IC3D to develop the first open source filament. The main goal is to democratize manufacturing.
The filament is Open Source Hardware Association (OSHW) certified.

Video of the talk at the 2017 Midwest RepRap festival:

GitHub repository with filament specifications and other materials:

Lulzbot is also selling the filament at 35USD per 1kg spool:

Source news release:

Cytosurge FluidFM µ3Dprinter is world’s first sub-micron metal 3D printer

Cytosurge AG, based in Zurich Switzerland, presents their revolutionary FluidFM µ3Dprinter which is world’s first 3D sub-micron direct metal printing machine.
This 3D printer could be used as an advanced tool for development of many new scientific and engineering applications from biology to nanorobotics.
It is one of the first steps towards practical manufacturing of parts for nanobots floating in your body to repair the damaged cells.

From the video description:
At the forefront of nanotechnology, additive manufacturing, life sciences and single cell biology, Cytosurge FluidFM µ3Dprinter is the world’s first 3D printer capable of delivering sub-micron resolution in direct metal printing, while offering scalability and good prospects in both production cost and speed.
The FluidFM technology opens a new world for metal object manufacturing and enables research opportunities in fields such as microelectronics, semiconductors, surface modification, microbots, sensors, material science and many other fields. Virtually any design can be offered to the system, including overhanging structures with 90 degree angles, without support structures or post processing steps.
High-precision surface modification processes can also be executed by printing ultra-thin or structured objects and by depositing multiple metals at the target surface. With the FluidFM µ3Dprinter various metals like Cu, Ag, Au, Pt can be printed.
The printing of other metals (Sn, Cd, Cr, Ni etc.) and various alloys are under investigation.

Company homepage:

May 21, 2017

TriDInnov 3D Prints Electronic Components on Plastic Surfaces

Looks like TriDInnov from France has a working technology that prints conductive electronics on plastic surfaces. 

Technology description:
Startup company TriDInnov provides additive metallization for plastic and composite materials electronic packaging, is linked through a closed partnership with equipment manufacturer Kelenn Technology, launching the new Kelenn Technology DMD 100, an off-contact digital dispenser which deposits the TDI thick film formulation EOPROM (primer formulation for metallization process) showcasing their prototype circuits which have been manufactured with the DMD 100, depositing their EOPROM thick film formulation on molded device.
TriDInnov's technology brings to the electronic packaging market a new manufacturing process which repositions the MID towards new business areas such as to add value to composite materials especially in the automotive area. They are to invest in a technology platform in order to manufacture MID prototypes circuits for their customers in order to push their technology acceptance in the marketplace.

BlackBelt 3D printer works with conveyor belt print surface

BlackBelt is a new 3D printer that uses a carbon fiber conveyor belt as build surface. As it prints at an angle it can produce really long objects.  It can make many different objects in series or one big object.
Due to geometry and angle, some objects will need a "starter" object or support to hang on to.
It is also possible to print support-free overhangs!

BlackBelt specifications:

  • Industrial linear guides
  • Build volume of 13″ x 13″ x infinity
  • Adjustable print angles: 45° is the default, but some parts come out better at the lower angles of 15°, 25°, and 34°
  • 1.75 mm filament diameter
  • €9,500 for desktop version, €12,500 for large system with standing supports

This machine looks very interesting, but what gets me suspicious is a lack of video material. There are only a few short videos and no reviews, tests or extensive presentations.

Update (19.06.2017.):

BlackBelt went on Kickstarter and they announced that they have a patent pending, the 3d printing community claimed that there are issues about that since there were similar open sourced systems.
More can be found at:

Detailed Guide On How To Build Ultimaker 2 Extended Clone

You really want to have an Ultimker 2+ Extended but don't have the money? You support open source and hold a grudge against Ultimaker for going closed source? Well, here is a perfect project for you.
Betrue3d site has a detailed guide on how to make an open source version with all the details you will need.
Great work betrue3d!

Here is the link to the first post in the series:

May 20, 2017

3D Printable DIY Rotary Tool aka. Dremel Clone

Makernaut developed and published this great 3d printable rotary tool or Dremel. It looks easy to make even with entry level electronics skills and has three 3d printed enclosure parts.

It is powered by 12V DC motor (listed as 6000 rpm, RS-550S motor, diameter~37mm), it has PWM DC motor controller (3A) and mini chuck / collet set for 3.17mm shaft to hold the tool bits.

Here is the build guide video with a short demonstration:

Full Instructables with STLs and parts list can be found at:

You can also go and see Makernaut's youtube channel:

New 3D Printed Airplane Seats Could Make Huge Savings

Autodesk researcher Andreas Bastian used advanced generative design to make a new type of lightweight airplane seat that could make huge savings on fuel and money if applied in future aircraft.
Due to complex geometry, the seat was made on Cronus 3D printer with 5 printheads and then cast in metal.

Project description:
The structure was 56% lighter than the conventional aluminum seats. With 30% calculated to be purely down to the generative design.
Autodesk believes these weight savings could rapidly reduce fuel emissions and thus drastically save costs. Calculating the projected cost savings, the team evaluated the weight savings into fuel savings.
By doing so, the project cites an estimate of $200 million USD in possible reductions over the lifetime of a fleet of 100 aircraft. Additionally, the team calculates fuel emission savings that could compare to removing 80,000 cars off the road for a year.


DIY Mobile Laser Cutter in 3D Printed Frame by Josh Hughes

Josh Hughes is developing a DIY handheld mobile laser cutter and engraver in 3d printable housing. In theory with this device, you would not be limited by a surface and it could work on a battery power.

Here is a design study:

Here is a model of 3d printable enclosure body, the design is now more refined with more ergonomic side handles:

Here is a prototype working with, what seems like, salvaged laser diode and optical drives:

You can follow the process on developers YT channel:

Laser engravings made as a test 

May 17, 2017

Three Hyper Cool 3D Printed Chairs

Here are three 3d printed chairs that look very futuristic and HYPER cool. They will probabyl find their place in some modern art gallery or in a tech billionaires mansion.

Voxel chair v1.0 by the Bartlett's Design Computation Lab

Source and more info:

Lilian van Daal's  Biomimicry chair

Source and more info:

Jungsub Shim's Connect chair made by hand with 3d printing pen

Source and more info:

Well, they look cool, but are they comfortable? I doubt it. I'm actually pretty certain that they are almost unusable. I like my cheap Chinese faux-leather lazy-boy copy, chewed out by my dogs, where I can chillax with beer and chips in front of the TV.

Design thin PLA objects and make them strong in your oven

"CNC Kitchen" published this great video on how he designed gardening clips for his raspberries. He focuses on how to design thin-walled object in Fusion 360 and how to make it more weather resistant and stronger by annealing them in his oven.

Here is the video where you will learn a nice and easy design flow process and see several tools in action:

Here is the clip STL:

Here is the CNC Kitchen YT channel:

And here are the PLA clips in the oven at 80C for 1 hour:

How to reduce rattling noise on your 3d printer

Tech2C, an Aussi 3d printing youtube, made this video where he shows how to eliminate and reduce the noise, vibration or rattling for his 3d printer.

He uses a HyperCube 3D Printer but his guide is applicable for almost any machine. Used upgrades are rubber feet, foam insulation, stepper motor dampeners or shock absorbers and TMC 2100 stepper drivers with stealthChop mode.

There is a great comment thread under that video with many additional ideas.

Tech2C YouTube channel link:

Astrosyn shock absorber for NEMA17 used:

Amazing Laser Cut and 3D Printed Art by John Edmark

John Edmark creates the most amazing art pieces inspired by fractal geometry, spirals and natural organic shapes using laser cutting and 3d printing.

The laser cut movable tentacle gripper from plywood is something I would like to make...

The art of John Edmark is described in depth in this talk by Paul Dancstep:

Artist's homepage with detailed presentations of many sculptures:

May 7, 2017

SelfCAD is a new browser based CAD and slicer software

SelfCAD is a new browser based CAD and slicer application with many powerful features but focused on simplicity and usability. It has a subscription based model with a free trial and has a somewhat high cost for the benefit it provides.

Here is how SelfCAD is described:
SelfCAD 's mission is to make 3D designing and printing accessible to everyone, including professional designers, as well as hobbyists and students who have little to no prior expertise using CAD/CAM software. One of the greatest achievements of SelfCAD is its simplicity and a low entry price point. Advanced shapes can be created within minutes using various shape creators.
SelfCAD is an online browser-based CAD/CAM platform which allows the you to model, sculpt, slice and print online. With SelfCAD, you do not have to spend months learning complex software and pay hundreds of dollars for the privilege. SelfCAD is about simplicity, affordability and accessibility. Learn, create, and print objects in a fraction of the time required with traditional CAD/CAM software.

You can check it out at:

SelfCAD has a very active YouTube channel with many tutorials and feature demonstrations:

SelfCAD on YouTube

Here is an interview with the CEO and founder, Aaron Breuer:

Podcast interview on 3D Start Point:

SelfCAD user interface

May 6, 2017

3D Printable DIY 600 Watt Halbach Array DC Motor

Christoph Laimer, well known for his 3d printable motor designs, developed a new and more powerful DC motor. It has 600 Watts of output power and performs with more than the 80% efficiency. The magnets of the rotor are arranged as a Halbach array and the motor runs with a standard ESC widely used in different RC applications (plane, drone, car etc.).

This project is a perfect example how you can use 3d printing for some ver powerful and practical printable objects. This is not just another fidget spinner, THIS ROCKS!!!

Presentation video:

Construction tutorial video:

Testing with the propeller attached:

Project homepage where you can buy the files for 10 USD (well worth when you see how effective this design is):

Very detailed step-by-step Instructables page:

ESA 3D Prints Moondust Bricks for Space Colony Construction

Space colonies will be built with 3d printers. We will never see bricklayers and construction workers in space suits.

Technology description:
Bricks have been 3D printed out of simulated moondust using concentrated sunlight. This ESA project took place at the DLR German Aerospace Center facility in Cologne, with a 3D printer table attached to a solar furnace, baking successive 0.1 mm layers of moondust at a temperature of 1000°C. A 20 x 10 x 3 cm brick for building can be completed in around five hours.
DLR Cologne’s solar furnace has two working setups: as a baseline, it uses 147 curved mirror facets to focus either actual sunlight into a high temperature beam, employed to melt together the grains of regolith. But this mode is weather dependent, so a solar simulator was subsequently employed as well – based on an array of xenon lamps more typically found in cinema projectors.

ESA project homepage:

May 5, 2017

Make Your Own Fixed Gear Electric Bike With 3D Printing

Tom Stanton developed a 3d printable system that converts a regular bicycle into an electric powered one. Biggest 3d printed parts are the motor mount and wheel pulley system.
He modified the "Vilano Rampage" fixed gear fixie single speed road bike. The motor used this project is the Turnigy Aerodrive SK3 - 6374-149kv brushless outrunner motor with 6s 5000mah li-po battery.

Presentation video:

Here is the Q&A video about the bike electrification:

All the project files, BOM and instructions can be found at:

May 4, 2017

Marlin 1.1 released!!!

The new Marlin 1.1 firmware has been released with many new features and upgrades!

Here is the description from github site: Marlin 1.1 Release Notes

"Marlin 1.1 represents an evolutionary leap over Marlin 1.0.2. It is the result of over two years of effort by several volunteers around the world who have paid meticulous and sometimes obsessive attention to every detail. For this release, we focused on code quality, performance, stability, and overall user experience. Several new features have also been added, many of which require no extra hardware.

The code has been significantly optimized in several areas, leading to fewer stutters, better delta performance, more reliable USB/Serial communication, and more consistent and deterministic results."

Key improvements are:
  • More consistent configuration with sanity-checking.
  • Many more boards supported, with sane defaults for most common features. Improved thermal protection, enabled by default with tight margins for error.
  • Improved Auto Bed Leveling with Bilinear Mesh and probeless operation.
  • Unified Bed Leveling™ – Combining all forms of bed leveling in one package, plus tools like G26 Mesh Validation to improve leveling accuracy even further.
  • Option to "fade" leveling compensation out over several layers to save computes on long prints.
  • Support for up to 5 extruders with different geometries.
  • Support for mixing and switching extruders. Linear Advance compensates for viscosity and pressure to reduce ooze and improve surfaces.
  • Dozens of languages including Japanese, Galician, and Simplified Chinese.
  • Significantly improved UI performance, especially Graphical Display.
  • Display rate adjusts dynamically to prevent print stuttering.
  • M600 Filament Change, Nozzle Clean, Nozzle Park, Auto Park on Pause, etc.
  • Improved support for Bed Leveling probes and Manual Probing.
  • Support for Trinamic steppers, i2c control, steppers as endstops.
  • Endstops can use pin interrupts for improved performance.
  • M43 Pins Debugging to report about, test, and monitor pins and endstops.
  • Print Job Timer
  • Sorted SD Card file listings.
  • Improved host integration, extended capabilities report, keepalive messages, auto-report temperature, and more!
  • Integrated I2C Bus allowing Marlin to interoperate on multiple boards.
  • Support for Case Light, RGB LED, LED Strip. Printer events feedback.
  • New features too numerous to list here. Read the config files for details!
For complete Marlin documentation and downloads go to the Marlin Homepage:

GitHub repository: