What game heroes would you like to see at gambody?
Terran Marine 3D Model with Gauss Riffle Pointed Up | Static Model
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|
terran marine pose 1_Body (repaired) (repaired).st l
75 h 7 min
terran marine pose 1_Gun (repaired) (repaired).stl
2 h 20 min
Terran Marine_body_pose_1 _New (repaired).stl
76 h 14 min
This should take overall.
It’s almost impossible not to recognize Terran Marine from one of the most popular online games. His impressive training and powered armor suit makes him extremely effective and vital in the battle. Equipped with rapid-fire rifles, the Marine’s armor suit makes him fit to be deployed in the most dangerous environments.
Although many players pay little to no attention to infantry, trying to grab the machinery, marines of the infantry do a lot of heavy lifting, engaging the enemy where enormous machines can’t reach.
You will find all these amazing features reproduced in Terran Marine model for 3D printing. This model is showcased with his C-14 Gauss Rifle pointed up, while here you can see Tarran in idle position.
Terran Marine 3D printable model is 134.84mm deep, 138.52mm wide, and 159.63mm tall. Printing time will be 59h while filament consumption will be around 35m or 278gram.
The 3D model’s downloadable files are provided in STL format, adapted for SLA/SLS and FFF printers. The 3D printing files have been repaired and corrected in Netfabb and executed in CURA 15.06 and Repetier Host, and are error-free.
Download Terran Marine 3D model by clicking on the “Buy” button in the top-right corner of the page. Proceed to checkout, enter your PayPal account or credit card details and download STL files.
On 28.09.2017 the Terran Marine 3D model was upgrated!
Now this model is divided into 11 parts. STL files are already available for purchase and download in Version 2
On 26.04.2018 a new option with the visor down was added. STL file is already available for download in “Source files” tab for Version 2 and Version 1. You can find it at the end of the list.
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.
As a STL file provider, our goal is to ensure that the files are error-free and printable in the most accurate way. This is why, we only test print the most difficult segments of the model’s parts.
The model's parts have been tested and printed in PLA. In case you need advice where to get your filaments from, check our partner's website.
- Infill speed: 30mm/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: 1.5mm
- 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.