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Tesla Power Armor 3D Model | Static Miniature
This 3D model consists of files in StereoLithography (.Stl) format that have been optimized for 3D printing.
Before printing the files, we strongly recommend reading the PRINTING DETAILS section.
|File Name||File Size||Time / Filament|
boom platforms (repaired) .stl
32 h 35 min
Tesla Power Armor_new (re paired).stl
20 h 32 min
This should take overall.
Tesla Power Armor 3D model is inspired by the popular video game’s armor suit. The gamers know that to acquire this powerful armor they have to fight off the Enclave soldiers. The in-game power armor is bulkier than any other armor, due to its capacity for superior damage resistance.
The powerful armor suit is worn by an operator. It features a device that disperses a large amount of damage resulted from energy attacks. This suit is known to enable the wearer to use energy weapons in an easier way.
Tesla Power Armor 3D model is an accurate representation of the video game power suit. Optimized for 3D printing, the 3D model shows accurate detailing and reproduces the bulky appearance of the armor.
The 3D gaming miniature features the Tesla helmet and the armor itself.
Tesla Power Armor model for 3D printing consists of 4 separate parts standing for the right and the left hooks, the platform for the power armor, and the power armor itself. The parts of the 3D model are created in Autodesk Maya 3D modeling program. The 3D design is converted into STL file format and checked for errors in Netfabb. The Tesla Power Armor STL files are flawless.
Check Printing Details of the model, tested on Ultimaker2 3D printer.
3D printed power armor will stand 17cm tall with the platform support, or 14cm tall for only the armor, 15cm deep, and 14cm wide.
Buy Tesla Power Armor 3D model by clicking the "Buy" button in the top right corner of the page. Download the files and have your 3D printed gaming miniature on your shelf in no time.
On 28.11.2016 the model files have been optimized and made solid. They now are adapted to be 3D printed using any slicing program. 3D model files are already available for purchase and download.
This model was tested in Cura 15.06. To avoid printing problems, we recommend the following settings:
- Layer height: 0.1mm*
- Initial layer thickness: 0.3mm
- Bottom/top pattern: lines
- Skin perimeter line count: 0
- Horizontal expansion: 0.04mm (when entering 0.04mm index, the 3D printer perceives the model as monolith, i.e. as having no hidden layers).
*Layer Height 0.1mm is recommended for a better quality for the printed model. However, the printing time will double.
Check this **Simplify3D User Guidelines to avoid any 3D printing problems with this software.
**On 28.11.2016, the 3D model files have been optimized. You can print them without following these Simplify3D guidelines, as the model is solid.
The model has been tested and printed in PLA. In case you need advice where to get your filaments from, check our partner's website.
- Infill speed: 50mm/s
- Outer shell speed : 30mm/s
- Inner shell speed: 20mm/s
- Top/bottom speed: 20mm/s
- Support speed: 50mm/s
- Travel speed: 150mm/s
- Skirt speed: 30mm/s
- Amount of slower layers: 4
- Infill pattern: Grid
- Line distance: 3mm
- Infill overlap: 20%
- Infill layers: 0
- Enable support: Check
- Placement: Everywhere
- Overhang angle: 30°
- X/Y distance: 0.7mm
- Top distance: 0.2mm
- Bottom distance: 0.2mm
- Stair step height: 0.5mm
- Join distance: 0.7mm
- Area smoothing: 0.6mm
- Use towers: check
- Pattern: Lines
- Line distance: 1.5mm
- Type: Brim
- Brim line count: 10 (up to 20, depending on the model’s height)
Other 3D printing recommendations:
Outer Shell Speed - 20mm/s and Support Speed - 40mm/s settings apply to avoid model deformation. Apply other settings by default.
Disclaimer: This model will look outstanding if printed on SLA/SLS 3D printer. The accuracy of the model printed on FFF printer can vary from the result shown in the pictures.