Dec 31, 2013

Artifex 3D Printer

Artifex technical specifications:
Print technology: Fused Filament Fabrication
Build Space
- W × D × H: 230 × 310 × 190 mm (9 × 12.2 × 7.5 in)
- Volume: 13,547 cm3 (827 in3, 2X the volume of MakerBot® ReplicatorTM 2)
(Note: MakerBot and Replicator are registered marks or trademarks of MakerBot Industries, LLC.)
- Height extendable to 220 mm (8.7 in) in the middle of X-axis for additional 198 × 310 × 30 mm (1,841 cm3, or 112 in3) space
Layer resolution: 0.05 mm (0.002 in)
Nozzle diameter: 0.35 mm (0.014 in)
Print materials: 1.75 mm PLA and ABS
- Top print speed: 150 mm/sec (infill or inner perimeter), 100 mm/sec (outer perimeter)
- Top non-print speed: 300 mm/sec
- Top print acceleration: 3000 mm/sec2 (infill), 1500 mm/sec2 (perimeter)
- Top non-print acceleration: 300 mm/sec2
Power requirements:  110/220 VAC
Electronics: RAMBo
Hot-end: MakerGear hot-end with 0.35mm nozzle
Heated bed: 24V 200W heated bed up to 120°C
Cooling fans: Three 24V cooling fans for filament drive, print surface, and electronics
Overall dimension: W × D × H: 484 × 482 × 480 mm (19 × 19 × 19 in)
Weight: 11 Kg (24 lb)
Frame: Aluminum extrusions
- X- and Y-axis: linear rails and GT2 belts
- Z-axis: precision linear shafting and ACME leadscrews
Printed parts:  Black ABS
Artifex is priced 1895 USD for fully assembled printer.

Main features:
Wire management
We know you do not like messy wiring. Neither do we. That was the reason why we spent tons of time and effort to manage those wires. We even went back to change the machine design multiple times in order to get a better routing option. Finally, we worked out a solution which can meet our standard to be part of a "neat machine". Hope you will like it as we do.

HBP Corner
No binder clips, please.
Binder clips have become the typical solution in most desktop 3D printers to hold its print surface to the build platform. Although they work fine for the purpose of holding the print surface, they waste otherwise usable print area on the edges,  interfere with the extruder nozzle, and give an "unfinished" look to your printer. The Artifex 3D Printer comes with newly designed HBP (Heated Build Platform) corners, which have securing slots to hold the glass plate and the heat spreader in place. The HBP corners can be easily slided out to release the glass top if you need to access the glass for maintenance.

Adjustable Y-axis Carriage
Less vibration means faster and quieter printing
In the original MendelMax 2.0 design, large vibration was observed at high printing speed. Such vibration created lots of noise and also caused quality problems in the finished parts. Majority of such vibration was caused by the large gap between the Y-axis rail and its catriages. The 3DMakerWorld Artifex 3D Printer uses upgraded Y-axis catriages with adjustable clearance capability. By reducing the gap between the Y-axis rail and the catriages, the 3DMakerWorld Artifex 3D Printer can achieve quiet and high-quality printing even at high speed.

Three-point bed leveling system
If you have ever tried both three-point and four-point bed leveling systems, you certainly know how much easier the bed leveling could be with a three-point leveling system. Yes, the 3DMakerWorld Artifex 3D Printer comes with a three-point bed leveling system in place to ease the leveling process.

Adjustable Z-Axis End-Stop Trigger
Adjustable Z-axis zeroing
As you continue advancing into the world of 3D printing, you will find the need to fine tune the distance between the extruder nozzle and the print surface. Such process is called Z-axis zeroing. The Artifex 3D Printer provides the adjustable Z-axis zeroing capability. It uses an adjustable Z-axis end-stop trigger to precisely adjust the nozzle height without messing up the bed level.

HBP cable strain relief
The HBP heater moves along the Y-axis with the build platform. The joint between the cable of HBP heater and the build platform is often a weak point due to the strain applied during continuous movement. A strain relief is built into the Artifex 3D Printer to secure and support the cable of HBP heater.

Enclosed electronics with dedicated cooling fan
The electronics board on the Artifex 3D Printer is completely enclosed from top to bottom for safe operation and easy maintainence. The electronics case also contains a dedicated cooling fan to cool off the electronic components during printing.

24V Power Supply with Rear Panel
24V power supply with convenient power switch
The 3DMakerWorld Artifex 3D Printer uses a 24V power supply to provide better heating capability on heated bed, and to improve motor performance at high printing speed. For the purpose of safety and aesthetics, all wire connectors are enclosed by top/bottom covers and back panel. An easy-reach power switch is installed on the power panel to switch on and off the power to the printer conveniently.

Mini Kossel Delta configuration DIY 3d printer

Kossel design and Mini Kosseel are often around, for some reason I forgot to make a post about it. So here it is ...

Design Goals from the Kossel page:
  • Zero backlash.
  • type: Delta printer
  • Speed: 320 mm/s in all 3 directions.
  • Resolution: 100 steps/mm in all 3 directions.
  • Repeatability: better than 0.03 mm (30 micron)
  • Build volume: cylindrical, 170mm diameter, 240mm height.
  • Footprint: triangle, 300 mm width (240mm OpenBeam + printed corners).
  • Frame height: 600 mm.
  • Print surface: unheated round glass, doesn't move.
  • Mass of end effector with hotend: less than 50 grams.
  • Simplicity: fewer than 200 parts.
  • Hardware cost: less than $600 USD.
  • Fully automatic print surface level calibration (autoleveling).

Build manual:

Here is the demonstration of the autolevel feature:

Dec 30, 2013

Appropedia MOST Delta 3d printer

Another Rostock derived Delta 3d printer with very detailed build guide.

From project page:
The MOST Delta printer is RepRap derived from the Rostock printer with the following design goals:
  • Simple build process
  • Safe to operate
  • True to RepRap
  • Maximize value
  • Maximize rigidity
  • Aesthetically pleasing (or at least neutral)
  • All PLA printed parts
  • Excellent print performance
The design utilizes plywood linking boards cut to a length that yields a desired printer radius when attached to the printed apexes. This simplifies assembly while helping to assure that printer dimensions are fixed, stable and reasonably well known. It also improves flexibility as the print area in the x-y plane can be changed simply by replacing the boards with boards of a different length. The delta design is inherently simpler to assemble as compared to virtually all it's Cartesian counterparts; this design can easily be built within a day by one person having properly prepared parts.
The design uses a 12v 5A power brick instead of the popular 12v power supplies having mains connections relatively exposed, a relative safety issue, particularly when children are present. The power supply is roughly equivalent to those found with many inkjet printers.
As many printed parts are used in the design as are practical, including printed pulleys. This in large part drove the decision to use open T5 timing belts for the drive, which also makes the design more flexible as the length of the guide rods doesn't need to be based upon the length of an off-the-shelf continuous belt.
Cost considerations drove decisions regarding everything from printer capabilities (as shown, prints PLA only) to guide rod material and length (two six foot lengths of 8mm drill steel are required, producing no waste). A Melzi controller is used as it provides all the necessary features as well as SD card support and reasonable expansion options. The power supply is a fraction of the cost of that required for powering a heated bed.
Printed apexes are very robust, probably overkill, and along with the plywood components and ample fasteners produce a very rigid structure. The printer has proven to transport very well (and can even be seat belted) with no adjustment needed prior to printing at its destination.
The end effector is actively cooled allowing for a unitized effector/hot end mount printed in PLA. The hot end is recessed within the end effector, maximizing z-axis travel and also providing for some print cooling.
Printing performance has been very good as has been the experience of printing with this design. Much less user intervention has been required as compared to experience with Cartesian RepRaps.
Printer capabilities/statistics
  • Print media: PLA only (heated bed can be added, expanding media options)
  • Filament diameter: 1.75mm
  • Nozzle diameter: 0.5mm (can be changed)
  • Print volume: ~250mm radius (with 240mm long linking boards) 270mm high
  • Melzi print controller w/ integrated SD card reader
  • Airtripper's Bowden Extruder

Appropedia page with very detailed build guide:

Github file repository:

Appropedia is very interesting wiki with many detailed open source DIY projects woth looking at.
Appropedia is the site for collaborative solutions in sustainability, poverty reduction and international development through the use of sound principles and appropriate technology and the sharing of wisdom and project information.

I'll post about more interesting Appropedia projects soon.

It can also be stacked in a tower configuration as someone successfully did here with 4 deltas stacked:

MOST is Pearce Research Group at Michigan Tech in Open Sustainability Technology.
They have many cool stuff here:

Dec 29, 2013

Stratum Networks Delta Robot 3d printer

Stratum Networks Delta is a student project of clay printing Delta 3d printer. Design is published on Instructables and the printer is made with air compressor powered clay extruder mounted on lasercut plywood and acrylic frame.
The output clay objects look rough but the precision can probably be improved.

Project developers, Max Sanchez and Taylor Fulton, are architecture students at California College of the Arts. This project was based in a studio course called "Creative Architecture Machines" taught by Jason Kelly Johnson and Michael Shiloh.

Detailed build guide and all the files needed can be found at:

They mixed the clay for this 3d printer out of:
  • EPK
  • SILICA #5 325mesh
  • DARVAN: Used as a deflocculant. A few drops of the fluid will make the clay compound more like a slip.
  • GROG: reduces shrinkage

Schematics of  air compressor driven clay extruder

Here you can find detailed video from more precise ceramic clay delta printer:

Dec 28, 2013

Custom Delta 3d printer built from Ikea furniture pieces

Turi Cacciatore made this Rostock based custom Delta 3d printer with frame made from Ikea furniture pieces. He used carbon archery arrows for delta arms. Nice work!

Source with detailed information and building guide:

Custom Delta frame made from cut Ikea pieces pictured above

You can see another 3d printer from hacked Ikea furniture pieces, the Ikea RepRap, here: 

Dec 27, 2013

DeltaTrix 3d printer with detailed build instructions

DeltaTrix is open source delta configuration 3d printer project by Richard Tegelbeckers. It has very detailed Instructables building guide and features sturdy cnc cut wood frame with Airtripper Bowden Extruder, RepRapPro Tricolour hot end and RAMPS electronics. He will also Kickstarter it soon.

Detailed construction manual and all the files needed:

DeltaTrix has sturdy CNC cut full wood frame construction

DeltaTrix print results

There are some similar detailed build guides for Delta printers like this one if you are interested in building different model:


It is on Kickstarter now:

Technical specifications described in Kickstarter campaign:
The theoretical printing area is 280mm (11 inch) in diameter. As a square this works out as (almost) 200x200mm (8"x8"), which suits the used 'MK2A' heated bed. As it is also useful to be able to remove items, the gap between the uprights is just over 295mm. The maximum build height is around 280mm (11").
Main features:
  • Linear delta robot layout provides a mechanically simple motion platform for moving the print head only, not the workpiece.
  • Off the shelf RAMPS electronics allow for easy replacement in case things go wrong.
  • Using a LCD display and SD memory card (supplied in our kits), the DeltaTrix 3D Printer can operate on it's own. It does not need to be attached to a computer.
  • There are several (Open Source) options in terms of software. At the moment we are using Repetier on the PC, a modified version of Marlin as the firmware on the RAMPS electronics, and the standard Arduino IDE for tweaking the firmware.
  • A heated bed with glass print surface, allows for PLA and ABS to be used as filament.
  • In terms of filament, the DeltaTrix 3D Printer is designed to accept 1.75mm PLA and ABS on a variety of 1kg reels, as long as it is of good quality.
  • Igus linear slides with pretension are used, providing a robust and durable bearing solution from a highly reputable manufacturer. The strengthening ribs on the uprights keep the rails straight and sturdy.
  • The current design print head assembly uses a single Reprappro Hot End, with a nozzle size of 0.3 or 0.5mm. The assembly also has a fan and integrated duct for cooling the top of a print.
  • Quick changeover print head assembly. Useful for swapping between two print head assemblies, eg. one for ABS and one for PLA. The prototypes use connection blocks, but the kit will have proper connectors. Please, note: the standard kit only contains parts for one off print head assembly.

Dec 26, 2013

Picaso 3d Designer 3d printer from Russia

New Russian 3d printer by Picaso 3d.

Technical specifications:
  • Build volume of 200 x 200 x 200mm
  • Layer size of 0.05mm
  • Minimum wall thickness of 0.19mm
  • Standalone machine using USB or SD card gcode input
  • Two nozzles sizes, 0.30 and 0.15mm
  • Display panel to monitor print operations
  • Enclosed heated build chamber to minimize ABS warping effects (they probably don't care about patents that big western corporations have on heated chamber technology)
  • Automatic calibration of the print bed
  • Russian-specific software interface
  • Price: RUB 99,000, or USD 3,000.

Here is video by TixTri in Russian language that shows both Picaso 3d models:  Builder and focuses on Designer.

New 3d printers from India: Brahma3 Anvil and Mi3D Pro X9

More printers are coming up in India. 3d printers are emerging everywhere. Go India Go!

Brahma3 Anvil

Technical specifications of Brahma3 Anvil:
  • Build Volume: 240 x 240 x 240 mm
  • No. of Extruders: 1
  • Nozzle Diameter: 0.4 mm
  • Maximum Extruder Temperature: 350°c
  • Hot End: All metal hot end
  • Heated Bed with a glass print surface
  • Build Platform: Metal / Glass
  • Aluminum frame
  • Weight: < 15kg
  • Dimensions (L, D, H): 380 X 400 X 500 mm
  • Slicing Support: Cloud Based
  • WiFi supported
  • Control unit is Android powered touchscreen tablet
  • Power Consumption Rating: 12V, 260W
  • Price: Rs. 100,000 (USD 1,610)

Mi3D Pro X9

Only information in video description is available for Mi3D Pro x9 3d printer:

  • Mi3D ProX9 for Industry Applications/Expert Designers
  • INDIA's First Double Extruder Printer
  • First printer to support print resume on powercut


Gnublin 3D printer and pcb mill hybrid

This is a project of 3d printer and low cost PCB mill hybrid machine with user swapable printhead / mill.
Embedded projects is developing it and surveying the market need and if they should build it.

More details and market survey:

Video updates on Theta polar 3d printer

Theta printer has unique design, you can check the first post about it here:

Here are some videos that show how the printer construction is progressing:

Simultaneous printing on Theta. The blue plastic is PLA and the yellow is ABS.

Two extruders printing on the same object at the same time.

Videos by Tyler Anderson

All files are at GitHub:

Theta printer project blog:

First print results in PLA and ABS at the same time on same object

Update (12.1.2014.):

here is a new video and successful print of the iconic Octopus:

From video description:
Testing the new firmware by printing an octopus. This print took about 1.5 hours with a feedrate of 20 °/s. In this case, thats roughly 55 mm/s. This printer should be capable of at least 40 °/s.

Update (21.8.2014.):

Theta was submitted for Hackaday prize contest:

Fully 3d printed speaker from Cornell's Creative Machines Lab

Speaker was fully 3d printed including metal coil at Cornell's Creative Machines Lab by Apoorva, Robert MacCurdy and Hod Lipson. To make it printable, the electronic components are made with two customizable 3D printers: a special silver ink extrusion is used for the coil and a viscous blend of strontium ferrite is used for the magnet.
It's the future people. We just need to get more synergy and merging of 3d printed plastic and 3d printed electronics.
I hope that projects that could empower every maker to print similar speakers like Spoolhead wire embedding 3d printhead RepRap will be revived and improved.



Josef Prusa also developed 3d printed speaker:

Update (29.4.2014.):

Disney Research presented interactive 3d printable embedded speakers:

Geoweaver walking hexabot 3d printer

Geoweaver is hexabot walking robot made from lasercut and 3d printed parts that has glue gun extruder attached for printing on walking surface. IT IS A FREAKING WALKING SPIDER ROBOT 3D PRINTER!!!!! AND YOU CAN BUILD IT YOURSELF!!!
very cool ...
It is not highest quality of 3d print and it has some limitations, but this concept could be developed in the future. You could have several in your home that could print different furniture and recycle it every day ... or swarms printing buildings ...

Very detailed information with full build instructions and all the files:

From Instructables description:

Geoweaver is a student designed robot created in the Creative Architecture Machines advanced options studio at the California College of the Arts (CCA) in San Francisco, California, taught by Jason Kelly Johnson of Future Cities Lab and Michael Shiloh. The design is based on a 12-servo hexapod with a glue gun extruder attached, and is the culmination of about 60 days of research and prototyping. Although the robot's official name is Geoweaver, it also goes by many aliases: Servo Killer, Eater of Shields, Melter of Wires, and Destroyer of Regulators, among many others. It is a very difficult and delicate machine, and is not a project to be tackled for the faint of heart.
But if you do take it upon yourself to accept it's challenges, it's rewards are great: it is a six-legged, walking 3D printer. The center mechanism uses two servos to control the pendulum-like extruder head, allowing it to cover a basic XY plane (though curved to the surface of a sphere, see video above), and one servo for the extrusion gear that forces the glue-sticks through the "print head." All of this can be controlled through the software Rhino 5, with the plug-ins Grasshopper and Firefly

it was designed and made by Student Team: Jia Wu, Jeffrey M. Maeshiro, Mary H. Sek at CCA - California College of the Arts Architecture Advanced Options Studio, Prof. Jason Kelly Johnson with Michael Shiloh


As several commentators on G+ and Reddit noted, they are like puppies pooping ... ;-)

Update (22.2.2014.):

here is a video of small robotic "ants" or "termites" building structures. If you combine these two technologies, some interesting synergies could emerge.

Fusematic 3d printer

From Fusematic page:
Meet the next generation of Maker’s Tool Works 3D printers. The Fusematic 3D printer is smaller, faster, and more affordable than the MendelMax 2, but made with the same commitment to quality that you have come to expect from MTW.
The Fusematic 3D printer was designed from the ground up for simplicity and reliability. A low part count, linear rails on all axes, and high-reliability electronics are just a few of the elements that set the Fusematic apart. And the electronics are all fully enclosed inside the base, making the Fusematic an excellent choice for schools and office environments.
Faster, Easier Assembly
The machined case with integrated assembly guides makes alignment easy.
Linear rails on all axes.
Preassembled print controller with a pre-configured downloadable firmware for nearly plug-and-play electronics
Keyed connectors prevent the most common electronic problems like shorts and assembly errors, and integrated fuses prevent serious damage in the event something still goes wrong.
Improved Design
The Fusematic 3D printer’s electronics are fully enclosed, which greatly reduces the possibility of injury or electrical malfunction.
The Bowden-style extruder makes the Fusematic 3D printer’s carriage lighter, giving better print quality at higher speeds.
Tuning and calibration is easy and requires no special skills.
The included RAMBo control electronics have nearly foolproof assembly and legendary reliability.
A user-added printable handle can be attached to the top plate to make it as easy as possible to transport.
The electronics are fully enclosed within the base, so there are fewer loose wires to snag during transport.
Rugged steel and aluminum construction.
Technical Specifications
  • Stylish black and silver components.
  • Build area: 200 x 225 x 200 mm, 8 x 9 x 8 inches
  • Full size of machine: 300 x 410 x 400 mm
  • Layer height: User-selectable, 100 – 300 microns
  • Print volume: 9000 cc, 576 cubic inches
  • PLA only with base version. PLA, ABS, and experimental materials like nylon and polycarbonate with the optional heated bed
  • Shipping weight: Approximately 22 lbs
  • Made in the USA with US and imported parts.
Fusematic 3d printer is priced at 799 USD.

Dec 25, 2013

Spherebot - 3d printable xmas balls robot plotter

Christmas is coming you dusted off your xmas tree and decorated it: everybody try to make it different, buying new decorations and balls of different colors. Well, if you are looking for something original, think of making your personalized balls with drawings and writings at will.
Here comes this machine: a printer, or better to say a plotter, which will draw with a marker on spheres at will, derived from models transformed into G-code files. The machine is easily doable with a few 3D printable pieces

You can build it yourself:

.stl files at:

Detailed build instructions and code:

Marry Xmas people!!!! HO  HO HO!

Cartesio 3d printer

Cartesio is sturdy 3d printer / desktop cnc design by Jos Scheepers with aluminum frame that you can buy or build yourself. It comes in two sizes: bigger Cartesio W and smaller Cartesio M.

Cartesio W description from the project page, it is priced at 2099 euro (Cartesio M is priced at 1699 euro):
The CartesioW V0.9 has a massive build volume of 400x200x200mm and comes standard with a 3D print extruder and a large Heated buildplatform
If you want other tools (engravers, plotters,...), please select them in the Tools catagory.
The Lead time for this product is currently : 3-6 weeks after payment has been received
We can also assemble Cartesio for you.
  • Cartesio is a feature rich profesional CNC router.
  • It supports a wide range of tools ig. 3D-print extruder and engraver.
  • It is possible to print multiple colors, or materials.
  • unique features :
  • quiet printing
  • very rigid build platform which does not move in X,Y direction.
  • high precision GTM (gantry tool movement)
  • automatic printhead cleaning
  • large build volume of 400x200x200mm (X,Y,Z) M(edium)
  • printable upgrades
  • optional engraving tool with software speed control
  • CDC (cable drag chains) cable protection

other features:
  • stand alone printing
  • moveable, due to its rigid design
  • prints small and large detailed objects
  • prints rigid construction elements
  • high speed printing

Project homepage:

Cartesio wiki and building instructions:

You can alos find them on Thingivers under:

CartesioW and smaller CartesioM comparison 

3d printer that prints figures in jello shots

From video description:
This is a close-up of my figures-in-jello-printing 3d-printer hack. Content of the shot glasses is jello (duh), printing fluid is a mixture of banana liquor, food colouring and starch to make it less viscose. Printer is made out of old cdrom drives

Source files:


PORO-LAY new family of advanced properties filaments by Kai Parthy: LAY-FELT, LAY-TEKKKS, LAY-FOMM and GEL-LAY

New 3d printing filament family by Kai Parthy the PORO-LAY. The new filament family consists of four different filaments: LAY-FELT, LAY-TEKKKS, LAY-FOMM and GEL-LAY with different properties.

From description:

PORO-LAY line (4 filaments)
dedicated for:
• 3d-membranes
• filters
• semipermeables
• future cloth
• artificial paper
soft and
stiff fibres possible
note: the filament contain no microfibres !!!
• micro-foam,
• sponges
• ink-reservoirs
• bio-cells
• elastics...
• bendable suits
• soft rubber-like (under Shore A10), different softness possible
• objects in water
• marine organism
flow simulation
• biomechanics
high porosity,
the object is very unstable 
• orientated fibres
• stacked fibres
• future cloths
• tissue
 Here is the post on BENDLAY filament:

RepRap TK300 3d printer

TK300 by RockyShi is on Thingiverse now ... information may be limited, design looks sturdy, it is made with steel side plates and CNC aluminum connecting parts ...

From Thingiverse description:
  • Ultimaker main board, will change to Rumba soon
  • dual DD2 extruders, direct driving
  • dual metal hotends E3D with cooling fans,Fast heat up
  • lcd controller
  • use prontface,cura or other opensource software
  • 1.75mm ABS or PLA filament
  • Fast change filament function
  • Steel cabinet for power supply and electronics
  • Borosilicate glass
  • Mk2a 300mm pcb heatbed with 24v,can reach 140 centigrade
  • building size 300*300*320mm
  • layer thickness 0.1-0.4mm
  • Steel side plates
  • CNC aluminum connecting parts
  • Modular packing

Dual extruder version:

Base version:

CNN video on Contour Crafting 3d printing buildings

3d printing buildings is gaining mainstream attention ... Contour Crafting Berok Khoshnevis gives interview on CNN ...

First post on Contour Crafting 3d printed houses:

Looks like China now leads the field of 3d printed houses since they printed ten of them in one day:

Update from HYREL 3D

From video description:
Just in time for the 2013 Holidays, HYREL 3D changes the economics of 3D printing with a single, affordable machine.
Whether one of HYREL's Engines or Systems, all are able to fabricate multiple parts simultaneously.

What this means to you:
If it currently takes four hours for your 3D printer to print / fabricate a single part and you need four of the same parts, it will take at least 16 hours total with a single machine.
With a single HYREL Engine or System, your capacity to fabricate parts simultaneously on the same machine opens up the bottleneck, saves you time and valuable shop space.
So, if you need two, three, or four fabricated parts... or if you need a small production run of parts...
... or if you'd like to mix in other materials with our different extruder heads -- you can do it all on your HYREL.
Other Materials include:
Sugru, Clay, Porcelain, Precious Metal Clay (PMC), Silicone RTV, Play-Doh, Plasticines... and coming soon, Wax, Chocolate, Cheese, Peanut Butter... etc.
For the material in the video, we used four colors of ABS. Each of the Mk1 Extruders in the video have been tested and verified to fabricate parts with the following types of filament: ABS, PLA, Nylon, PET, & Rubber. More filaments are currently being tested and more will be certified as 3D printable with the Mk1s in early 2014.

Hyrel 3d homepage:

Here is a video describing the capabilities of Hyrel machines:

Dec 23, 2013

ShapeDo - community driven 3d model design and collaboration

ShapeDo is new community driven 3d model design and collaboration website. It has some powerful and interesting features.

Video of collaboration features inside ShapeDo:

Cherry Pi Delta DIY 3D Printer by AndyCart

Deltas are everywhere ... here is new one by AndyCart ...

From Thingiverse description:
This is my own variant of a variety of 3D printer designs available. I have used ideas from Kossel, Delta Pi, 3DR and, of course, Rostock. Many thanks to the designers of those machines for their brilliant ideas that I have shamelessly 'Cherry Picked' hence the name of my design!
The rods on my printer are 277mm from steel ball centre to centre. The towers are 800mm Bosch/Rexroth aluminium extrusion and the base frame extrusions are 250mm long as are, obviously, the top frame extrusions. You need nine in all.
The bearing carriers use 6 623 10mm x 4mm x 3mm bearings and slide directly on the extrusion. Nut traps for M3 nuts are included in the carrier. The rods connect to the carrier with a plate that fastens with 3 M3 bolts, again nut traps are included. The rod carriers and the effector plate hold 10mm x 5mm countersunk, cylindrical rare earth magnets and my rod end balls are 8mm diameter. My rods are 5mm carbon tube but you could use 6mm aluminium. My rod end balls have a 10mm M5 threaded rod and are the type used for the ends of gas struts, etc. the idea of the seperate rod carriers was to enable different rod attachment methods but the magnets and balls have worked out fine for me.

Dec 21, 2013

BBC report on Foodini food 3d printer by Natural Machines

Company site, currently without any relevant information:


here are some news on Foodini:

3d printable asthma inhaler

Holly from England made this 3d printable asthma inhaler. Hopefully the design will be open sourced in the future.

From source blog:

My fully functioning asthma inhaler design for my uni project is 3d printed in ABS. I tried to work my design around ergonomics:

  • The back part is completely rounded to enable it to fit in your hand more comfortably
  • Flat parts on the side add for grip along with the slightly curved in front.
  • The smaller but longer mouthpiece is so you can fit it better into the mouth to better take the medication.
  • Another feature is that it glows in the dark so you can find it quickly at night or in your bag, unfortunately due to costs, the glow in the dark ABS filament is far too expensive for me to afford.


Also, check the previous post on custom baby asthma medicine nebulizer mask:

Solidus Labs Dogleg grounded delta robot (GDR) 3D Printer

Solidus Labs Dogleg GDR Delta 3d printer is interesting variation of RepRap Simpson. Information is limited, hopefully more will be available soon.

From video description:
First movements of our dogleg grounded delta robot(GDR) 3d printer. This is the first motion test using the delta marlin firmware on a gen 6 board controlled through printrun. The GDR idea is from the Simpson 3d printer but we utilize lead screw/worm gears for motion


Update here:

Update 2:

Solidus Labs released single arm SAPE 3d printer PoC:

Solid Concepts selling metal 3d printed guns for 11900 USD per piece

Remeber the first fully operational metal pistol 3d printed by Solid Concepts?

Now they are selling 100 pieces from limited series for 11900 USD each!
From the source article:
"Solid Concepts, which last month revealed the first fully-functional, metal 3D gun, announced today that they're putting 100 limited-edition models of the 1911 .45 caliber pistol on sale for $11,900 each. Solid Concept demonstrated the gun by initially firing 50 rounds through it. Since then, the company said it has fired nearly 2,000 rounds through the pistol without a single malfunction. Unlike the very first 3D printed gun — the single-shot, plastic Liberator — Solid Concepts says is not trying to promote the right to bear arms under the Second Amendment. Its purpose in printing the firearm was to demonstrate its ability to turn out precision, durable parts that could withstand the massive pressure created by firing a bullet. People who purchase one of the limited-edition guns will also have the chance to tour Solid Concept's Texas facility to see their gun being printed, and to join their lead additive manufacturing engineers on the range for the first test firing of their limited 1911 gun."
Company page:



Solid Concepts 3d printed new full metal working pistol "Reason" in 10mm Auto caliber.

Medical prosthetic hand Vs. 3d printed prosthetic hand

Medical prosthetic hand price compared to DIY 3d printed prosthetic hand. The price difference is enormous. There are many many reasons for this ... maybe I'll make some sort of analysis in the future ...

Update (21.4.2014.):

Here is a video comparison of DIY 3d printed hand and high tech prosthetic hand done by person born without hand after testing both:

Dec 20, 2013

NOVA low cost DLP 3d printer from Taiwan

More DLPs are emerging. Prices are falling, 3d printing is moving forward ... Here is NOVA DLP from Taiwan ...

Technical specifications:
  • Build envelope: 100x70x150 mm (0.1mm precision)
  • Printer is able to harden a layer of 10x8 cm in 8-10 seconds without the typical moving heads that takes 30 seconds or more to finish
  • XY precision: 0.1mm
  • Z precision: 0.1mm
  • Software: Snapshot version 1.0
  • File print: STL
  • Machine size: 212x310x600 mm
  • Weight: 12kg
  • Operating temperature: 0°-32° C
  • AC input: 100-240V,~2A,50-60HZ
  • Data input: USB
  • Price: $999

Snap 3d printer with easy assembly HDPA frame

The main feature of this 3d printer is very easy assembly without complicated fasteners or tools due to modular interlocking design of its HDPA (high density polyethylene) frame.

From Snap 3d printer Kickstarter description:

The Snap3D project:
We wanted to design the best 3D printer that will be fast to assemble and to print high quality parts.

The assembling process doesn't required technical background. That will open the door to many users still afraid to build their own printer or who don't want to deal with complex design (cutting parts, electronics, soldering).
The printer's frame is extremely strong and doesn't required the use of fasteners thanks to our one year design innovation and the quality of the material. Indeed, from our first prototype in wood to our final product in plastic, the printer is just one of the best design and most appealing 3D printer with choice of the frame's color.

One of our dream is to have the printer as a platform for innovations in 3D printing. This is why we've chosen the modular design. Advanced users, Makers, product designers will be able to customize their printer. One example is the Extruder's platform that can be easily removed and replaced with a different Extruder for liquid printing or dispensing (printing chocolate, sugar or food). The print bed is also modular for this purpose. They will be able to add a second Extruder for experimental dual printing. Our electronics will support this option too.
  • No Soldering, Electronics & Wires snap together. 
  • The build volume is big: 8x8x8 inches 
  • ABS, PLA, Nylon 3 mm filament 
  • J Head nozzle
  • 100 micron layers resolution 
  • Stand alone with microSD input. 
  • LCD panel with control interface: No need to use your computer, laptop to control the printer, pause and reset buttons, navigation buttons, 
  • The Best heated bed for ABS: Helios bed 
  • LED light 
  • Easy and fast to assemble 
  • Software: Repetier, Pronterface or slic3r
  • The price for Snap 3D special kit starts at $799. If fully funded, the first batch of printers is expected to be shipped in March / April 2014.

Video of Viki LCD in action:

Video of Snap 3d frames being CNC cut:

Snap Kickstarter campaign:

TJIKO company page: