View allAll Photos Tagged CreativeTools
SVENSKA
Dessa bilder visar hur ett plastmynt med vår logotyp skapades med hjälp av en ZPrinter 3D-skrivare från Z Corporation. Först skapades myntet och gjutformen i Rhino 3D. Därefter printade 3D-printern en gjutform i gips som härdades med Epoxylim. Efter det kunde flera mynt i plast formsprutas i den 3D-utskrivna formen!
ENGLISH
These images show how a plastic coin with our logo was made with the help of a ZPrinter 3D-printer form Z Corporation. First the model and the mold was made in Rhino 3D. Then we 3D-printed the mold with our ZPrinter 650 and hardened it with Epoxy. After that we could produce several plastic coins with our desktop injection molding machine.
SVENSKA
Dessa bilder visar hur ett plastmynt med vår logotyp skapades med hjälp av en ZPrinter 3D-skrivare från Z Corporation. Först skapades myntet och gjutformen i Rhino 3D. Därefter printade 3D-printern en gjutform i gips som härdades med Epoxylim. Efter det kunde flera mynt i plast formsprutas i den 3D-utskrivna formen!
ENGLISH
These images show how a plastic coin with our logo was made with the help of a ZPrinter 3D-printer form Z Corporation. First the model and the mold was made in Rhino 3D. Then we 3D-printed the mold with our ZPrinter 650 and hardened it with Epoxy. After that we could produce several plastic coins with our desktop injection molding machine.
English
3D model of a Candle holder 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Download the 3D model from:
www.thingiverse.com/thing:5353
Swedish
3D-modell av en ljushållare 3D-utskriven på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
Whatch the video on Youtube:
The Dual Colour #3DBenchy 3D-printed on a BCN 3D printer at CreativeTools.se.
Download the dual-colour STL files at 3DBenchy.com/download
The 3D model: www.thingiverse.com/thing:69491
The 3D printer: makerbot.creativetools.se
For more information creative-tools.com
SVENSKA
Dessa bilder visar hur ett plastmynt med vår logotyp skapades med hjälp av en ZPrinter 3D-skrivare från Z Corporation. Först skapades myntet och gjutformen i Rhino 3D. Därefter printade 3D-printern en gjutform i gips som härdades med Epoxylim. Efter det kunde flera mynt i plast formsprutas i den 3D-utskrivna formen!
ENGLISH
These images show how a plastic coin with our logo was made with the help of a ZPrinter 3D-printer form Z Corporation. First the model and the mold was made in Rhino 3D. Then we 3D-printed the mold with our ZPrinter 650 and hardened it with Epoxy. After that we could produce several plastic coins with our desktop injection molding machine.
SVENSKA
Dessa bilder visar hur ett plastmynt med vår logotyp skapades med hjälp av en ZPrinter 3D-skrivare från Z Corporation. Först skapades myntet och gjutformen i Rhino 3D. Därefter printade 3D-printern en gjutform i gips som härdades med Epoxylim. Efter det kunde flera mynt i plast formsprutas i den 3D-utskrivna formen!
ENGLISH
These images show how a plastic coin with our logo was made with the help of a ZPrinter 3D-printer form Z Corporation. First the model and the mold was made in Rhino 3D. Then we 3D-printed the mold with our ZPrinter 650 and hardened it with Epoxy. After that we could produce several plastic coins with our desktop injection molding machine.
SVENSKA
Dessa bilder visar hur ett plastmynt med vår logotyp skapades med hjälp av en ZPrinter 3D-skrivare från Z Corporation. Först skapades myntet och gjutformen i Rhino 3D. Därefter printade 3D-printern en gjutform i gips som härdades med Epoxylim. Efter det kunde flera mynt i plast formsprutas i den 3D-utskrivna formen!
ENGLISH
These images show how a plastic coin with our logo was made with the help of a ZPrinter 3D-printer form Z Corporation. First the model and the mold was made in Rhino 3D. Then we 3D-printed the mold with our ZPrinter 650 and hardened it with Epoxy. After that we could produce several plastic coins with our desktop injection molding machine.
3D printer filament spool holder for MakerBot Replicator
Made on a makerbot.creativetools.se
Download the file for free from: www.thingiverse.com/thing:72746
A 3D printable grip and lens cover for the ASUS XTION motion sensing hardware which is very affordable and popularly used as a hand-held 3D scanner.
- www.thingiverse.com/thing:126936
- www.instructables.com/id/EI6NW7FHPWBYIDB/
The 3D scanner: bit.ly/1bBmlMq
The 3D printer: makerbot.creativetools.se
The 3D model: www.thingiverse.com/thing:126936
This is a 3D-printed 420 mm long 3D-printed model of Daniel Norées popular "Fully assembled 3D printable wrench".
This print was made of flexible rubber-like TPU filament for FFF 3D-printers.
Download the model from: www.thingiverse.com/thing:139268
3D-printed on a profi3dmaker.creativetools.se
SVENSKA
Dessa bilder visar hur ett plastmynt med vår logotyp skapades med hjälp av en ZPrinter 3D-skrivare från Z Corporation. Först skapades myntet och gjutformen i Rhino 3D. Därefter printade 3D-printern en gjutform i gips som härdades med Epoxylim. Efter det kunde flera mynt i plast formsprutas i den 3D-utskrivna formen!
ENGLISH
These images show how a plastic coin with our logo was made with the help of a ZPrinter 3D-printer form Z Corporation. First the model and the mold was made in Rhino 3D. Then we 3D-printed the mold with our ZPrinter 650 and hardened it with Epoxy. After that we could produce several plastic coins with our desktop injection molding machine.
SVENSKA
Dessa bilder visar hur ett plastmynt med vår logotyp skapades med hjälp av en ZPrinter 3D-skrivare från Z Corporation. Först skapades myntet och gjutformen i Rhino 3D. Därefter printade 3D-printern en gjutform i gips som härdades med Epoxylim. Efter det kunde flera mynt i plast formsprutas i den 3D-utskrivna formen!
ENGLISH
These images show how a plastic coin with our logo was made with the help of a ZPrinter 3D-printer form Z Corporation. First the model and the mold was made in Rhino 3D. Then we 3D-printed the mold with our ZPrinter 650 and hardened it with Epoxy. After that we could produce several plastic coins with our desktop injection molding machine.
3D model made by Swedish 3D artist Måns Larsson
- 3D-modell sliced with Skeinforge 50
- Printed with ReplicatorG on a standard MakerBot Replicator FDM 3D-printer
3D printer filament spool holder for MakerBot Replicator
Made on a makerbot.creativetools.se
Download the file for free from: www.thingiverse.com/thing:72746
The 3D-printer: profi3dmaker.creativetools.se
The software: simplify3d.creativetools.se
This video shows how the PROFI3DMAKER 3D printer makes two objects simultaneously in two different layer heights - coarse and fine.
This feature saves time because a final high-resolution version of a prototyp can be made at the same time as other objects at a lower draft resolution.
The printer is driven via the Simplify3D software.
The MakerBot Digitizer 3D-scanned Laser Cat model was used in this test of different layer thicknesses. The cat was scaled down to 50 mm in height and then 3D printed at the following layer heights:
- 0.40 mm (400 microns)
- 0.30 mm (300 microns)
- 0.20 mm (200 microns)
- 0.10 mm (100 microns) - Average width of a strand of human hair
- 0.05 mm (50 microns)
- 0.02 mm (20 microns)
All six cats where 3D printed on a MakerBot Replicator 2 with TRUE BLUE PLA plastic at 230 degrees C.
All layers where 3D printed with MakerWare's standard values as follows:
(400 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(300 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(200 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(100 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(50 microns) - 15% infill - perimeters 2 - speed 60 mm/s
(20 microns) - 15% infill - perimeters 2 - speed 40 mm/s
---
The 3D scanner: bit.ly/1a7y8hG
The 3D printer: makerbot.creativetools.se
The 3D model: www.thingiverse.com/thing:146265
English
3D model of a miniature house 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Swedish
3D-modell av ett hus i skalamodell 3D-utskrivet på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
A 3D-printed propeller for model airplanes
The 3D printer: makerbot.creativetools.se
The 3D model: www.thingiverse.com/thing:30284
3D printer filament spool holder for MakerBot Replicator
Made on a makerbot.creativetools.se
Download the file for free from: www.thingiverse.com/thing:72746
3D printer filament spool holder for MakerBot Replicator
Made on a makerbot.creativetools.se
Download the file for free from: www.thingiverse.com/thing:72746
A loopable 360 degrees turntable study of the Printrbot 3D printer model Simple. About 52 sec duration, no sound.
The 3D-model: 3DBenchy.com/download
The 3D-printer: www.creativetools.se/index.php?route=product/search&f...
This 3D printed part is made with a MakerBot standard Replicator (first version) FDM 3D printer. The layer height in ReplicatorG is set at 0.1 mm. The material is yellow PLA 1.75 mm plastic filament.
Download 3D-model for 3D print from www.thingiverse.com/thing:11882
A fully 3D-printable rotating stand for filament spools, designed to be easily made without the need for fasteners such as screws, nuts, shafts, glue, etc. Every single component in this spool holder comes right from your 3D printer's filament.
The spool holder's spindle is shaped to fit the vast majority of commonly used filament spools with shaft holes ranging from 16 mm to 62 mm in diameter. It is also compatible with spool-less filament coils.
The spindle which holds the spool's weight rotates on its own roller wheels, which makes it turn effortlessly.
The spool holder included an arm for filament guide tubes of both common sizes 1.75 mm and 3.0 mm. The arm also contains a pocket for inserting a piece of sponge which acts a a filament filter - thus keeping the filament clean and lubricated.
FEATURES
- Easy to 3D print
- Needs no glue or fasteners
- All parts can be 3D-printed
- Fits almost any filament spool size
- Has built-in filament filter!
- Can also hold spool-less filament coils
Next time you need a new filament spool holder, just 3D-print one! :)
INSTRUCTIONS
Please see video youtu.be/X6ArZeWYSZE
"Creative Tools
The 3D-model: 3DBenchy.com/download
The 3D-printer: www.creativetools.se/hardware/other-hardware/demo/roland-...
The 3D-model: 3DBenchy.com/download
The 3D-printer: www.creativetools.se/hardware/other-hardware/demo/roland-...
3D-printed on a MakerBot Replicator 2 FFF 3D printer (makerbot.creativetools.se) with PLA plastic filament.
Download the model from www.thingiverse.com/thing:68880
The 3D-model: 3DBenchy.com/download
The 3D-printer: www.creativetools.se/index.php?route=product/search&f...
English
3D model of a Halloween punpkin 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Swedish
3D-modell av en Halloweenpumpa 3D-utskriven på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
English
Image of a Canon Powershot G10 digital camera taken with a PackshotCreator photo studio by Creative Tools AB.
Swedish
Produktbild av en Canon Powershot G10 digitalkamera tagen med en PackshotCreator fotostudio av Creative Tools AB.
English
3D model of a slim Santa Claus 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Download the 3D model from:
www.thingiverse.com/thing:5342
Swedish
3D-modell av en smal Jultomte 3D-utskriven på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
Whatch the video on Youtube:
The MakerBot Digitizer 3D-scanned Laser Cat model was used in this test of different layer thicknesses. The cat was scaled down to 50 mm in height and then 3D printed at the following layer heights:
- 0.40 mm (400 microns)
- 0.30 mm (300 microns)
- 0.20 mm (200 microns)
- 0.10 mm (100 microns) - Average width of a strand of human hair
- 0.05 mm (50 microns)
- 0.02 mm (20 microns)
All six cats where 3D printed on a MakerBot Replicator 2 with TRUE BLUE PLA plastic at 230 degrees C.
All layers where 3D printed with MakerWare's standard values as follows:
(400 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(300 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(200 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(100 microns) - 15% infill - perimeters 2 - speed 90 mm/s
(50 microns) - 15% infill - perimeters 2 - speed 60 mm/s
(20 microns) - 15% infill - perimeters 2 - speed 40 mm/s
---
The 3D scanner: bit.ly/1a7y8hG
The 3D printer: makerbot.creativetools.se
The 3D model: www.thingiverse.com/thing:146265
This 3D-file is the result of a project in which a 1000-year-old Viking belt buckle was laser scanned and 3D printed to achieve a copy of the unique archaeological artifact.
You can read the full article about this project via the URL below.
www.creativetools.se/3d-utskrifter-3d-skrivare/11182-3d-s...
Feel free to share this 3D object and the contents of the article under the Creative Commons Attribution-Share Alike 3.0 Unported license.
English
3D model of a Yule goat 3D printed on a ZPrinter. Image is taken with a PackshotCreator photo studio by Creative Tools AB.
Download the 3D model from:
www.thingiverse.com/thing:5340
Swedish
3D-modell av en Julbock 3D-utskriven på en ZPrinter. Bilden är fotograferad med en PackshotCreator fotostudio av Creative Tools AB.
Whatch the video on Youtube:
The 3D-model: 3DBenchy.com/download
The 3D-printer: www.creativetools.se/index.php?route=product/search&f...
The 3D-model: 3DBenchy.com/download
The 3D-printer: www.creativetools.se/index.php?route=product/search&f...
This video shows the bee of the BEEVERYCREATIVE logotype 3D-printed as several individual parts in four different colours. These where then assembled together.
For the majority of commonly 3D printed items this has the following advantages compared to dual and triple-nozzle 3D printers.
- The results yield better quality
- No oozing and colour-smearing problems
- One can use unlimited number of colours (not only two or three)
- A single-nozzle 3D printer always uses the full range of the maximum build volume
- An interrupted 3D print only affects a small portion of the total print time
- No considerable extra 3D modelling overtime needed since multi-nozzle 3D prints also require individual STL files for each colour
For more information on this 3D print and the BEETHEFIRST 3D printer, visit beeverycreative.creativetools.se and youtu.be/vKgeOvcRBpc
The 3D model of this bee was made into several parts in Rhino 3D for Mac OS X. Each part was saved to an STL file and 3D printed a different colour. The where designed to snap-fit to each other.
The jolly music for this video borrowed from:
SVENSKA:
Den personliga fabbster 3D-skrivare från Sintermask.
Läs mer på: fabbster.creativetools.se
ENGLISH:
The personal 3D printer fabbster from Sintermask