What game heroes would you like to see at gambody?
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.
Version 1 and Version 2 are the files for Jenner BattleMech 3D model optimized for 3D printing, the preview pictures of which you see above.
It is recommended:
- to print Version 1 STL files on FDM/FFF 3D printers;
- to print Version 2 STL files on DLP/SLA/SLS 3D printers.
|File Name||File Size||Time / Filament|
3 h 27 min
1 h 32 min
1 h 33 min
This should take overall.
Jenner... national pride of the Draconis Combine.
It was Introduced in 2784. Designed, produced and solely used by the Combine, the Jenner was meant to be a fast guerrilla fighter which would go on to form the foundation for highly mobile lances. Five Smithson Lifter jump jets, two in each side torso and one in the center torso, gave it a jumping distance of 150 meters, while its 245-rated Magna fusion engine allowed for a top speed of over 118 km/h, making it faster than most other Mechs. So was creating a good mix of speed and firepower, compared to other Mechs in the same weight range.
- Mass: 35 tons
- Class: Light
- Chassis: Diplan Scout-A
- Armor: Starshield
- Engine: Magna 245
- Communications System: Dawson III
- Targeting Tracking System: Bk-309
- Heat Sinks: 10
- Speed: 118.8 km/h
- Jump Jets: Smithson Lifter
- 1x SRM-4
- 4x Medium Lasers
The basis for the creation was a configuration JR7-D.
All limbs are movable as in the game: legs, weapons and torso rotating 360 ° Using technique of creating “Polygonal Modeling” and you will get Hard Surface model for enjoying your favourite mech. Combine Jenner with larger Battlemechs and unleash a devastating alpha strike with Gambody Marketplace. Now it’s available for purchase!
In the FDM version, Jenner has increased legs mobility, so you can put your mech in any position or surface
The SLS version is made for saving material and max ease of printing.
All STL files for 3D printing have been checked for errors and corrected in Netfabb.
Note: Before starting 3D printing the model, read the Printing Details for CURA 2.7.0. software.
Based on the scale of the MWO tables and a pilot proportions of 2m tall.
In the game it size is 11 meters and 13 meters with antennas.
13000/60 = 218 mm(8.58 in.) tall - with antennas.
11000/60 = 183 mm(7.2 in.) tall - without antennas.
13000/100 ≈ 130 mm(5.11 in.) tall - SLS version.
There are 24 parts for FDM version and 6 part for SLS.
All limbs and weapon in FDM version are movable!
All parts of the joints should be printed at 100% infill.
If you printing with PLA material you should increase the scale of joints (11, 15 and 17 .stl file numbers) at 2-3% in your slicing program.
If you printing with ABS/CPE material you should increase the scale of joints (11, 15 and 17 .stl file numbers) at 1% in your slicing program.
- Is 1:60 scale and after being printed will stand 218 mm tall, 134 mm wide, 130 mm deep;
- Is designed to save almost all movable elements that prototype has;
- Has removable hinges that should be printed at 100% infill to make them solid.
- Is 1:100 scale and will stand 130 mm tall, 80 mm wide, 77.2 mm deep.
- Has as few details as possible to keep printing costs down.
You can get Jenner BattleMech 3D Printing Miniature right now! Just click the green Buy button in the top-right corner of the model’s page. You can pay with PayPal or your credit card.
Where can I print a model if I have no printer?
How to get started with 3D printing?
How to set up my 3D printer?
How to choose right 3D model print bed positioning?
How to paint printed figurine?
This model was tested in Cura 2.7.0. and printed on an Ultimaker 2 in PLA material.
If you printing joints with PLA material you should increase the scale of joints (11, 15 and 17 .stl file numbers) at 2-3% in your slicing program.
If you printing joints with ABS/CPE material you should increase the scale of joints (11, 15 and 17 .stl file numbers) at 1% in your slicing program.
Note: To maintain model quality, do not try to increase or decrease the size, since the hinges may not fit and the model will not be assemble or movable after scale changes.
To avoid printing problems, we recommend the following settings:
Layer Height: 0.1 mm
Initial Layer Height: 0.27 mm
Line Width: 0.35 mm
Wall Line Width: 0.35 mm
Outer Wall Line Width: 0.35 mm
Inner Wall(s) Line Width: 0.35 mm
Top/Bottom Line Width: 0.35 mm
Infill Line Width: 0.35 mm
Skirt/Brim Line Width: 0.35 mm
Support Line Width: 0.35 mm
Initial Layer Line Width: 100%
Wall Thickness: 1.05 mm
Wall Line Count: 3
Outer Wall Wipe Distance: 0.2 mm
Top Surface Skin Layers: 0
Top/Bottom Thickness: 0.8 mm
Top Thickness: 0.8 mm
Top Layers: 8 (all parts of the joints should be printed with 0)
Bottom Thickness: 0.8 mm
Bottom Layers: 8 (all parts of the joints should be printed with 999999)
Top/Bottom Pattern: Lines
Bottom Pattern Initial Layer: Lines
Top/Bottom Line Directions: [ ]
Outer Wall Inset: 0.025 mm
Compensate Wall Overlaps: Check
Compensate Outer Wall Overlaps: Check
Compensate Inner Wall Overlaps: Check
Fill Gaps Between Walls: Everywhere
Horizontal Expansion: 0 mm
Initial Layer Horizontal Expansion: 0 mm
Z Seam Alignment: Shortest
Ignore Small Z Gaps: Check
Infill Density: 20% (all parts of the joints should be printed at 100%)
Infill Line Distance: 3.5 mm (all parts of the joints should be printed with 0.35 mm)
Infill Pattern: Grid (all parts of the joints should be printed with Lines)
Infill Line Directions: [ ]
Infill Overlap Percentage: 10% (thу same for the joints)
Infill Overlap: 0.035 mm (thу same for the joints)
Skin Overlap Percentage: 5%
Skin Overlap: 0.0175 mm
Infill Wipe Distance: 0.0875 mm
Infill Layer Thickness: 0.1 mm
Gradual Infill Steps: 0
Infill Before Walls: Check
Minimum Infill Area: 0 mm2
Enable Retraction: Check
Retraction Extra Prime Amount: 0 mm3
Retraction Minimum Travel: 0.7 mm
Maximum Retraction Count: 90
Minimum Extrusion Distance Window: 6.5 mm
Nozzle Switch Retraction Distance: 20 mm
Nozzle Switch Retraction Speed: 20 mm/s
Nozzle Switch Retract Speed: 20 mm/s
Nozzle Switch Prime Speed: 20 mm/s
Print Speed: 50 mm/s
Infill Speed: 50 mm/s
Wall Speed: 40 mm/s
Outer Wall Speed: 30 mm/s
Inner Wall Speed: 40 mm/s
Top/Bottom Speed 20 mm/s
Support Speed: 30 mm/s
Support Infill Speed: 30 mm/s
Travel Speed: 120 mm/s
Initial Layer Speed: 30 mm/s
Initial Layer Print Speed: 30 mm/s
Initial Layer Travel Speed: 72 mm/s
Skirt/Brim Speed: 30 mm/s
Maximum Z Speed: 0 mm/s
Number of Slower Layers: 2
Combing Mode: All
Avoid Printed Parts when Traveling: Check
Travel Avoid Distance: 0.6562 mm
Enable Print Cooling: Check
Fan Speed: 100%
Regular Fan Speed: 100%
Maximum Fan Speed: 100%
Regular/Maximum Fan Speed Threshold: 10 s
Initial Fan Speed: 0%
Regular Fan Speed at Height: 0.27 mm (thу same for the joints)
Regular Fan Speed at Layer: 2 (thу same for the joints)
Minimum Layer Time: 5 s
Minimum Speed: 10 mm/s
Enable Support: Check
Support Placement: Everywhere
Support Overhang Angle: 50° (all parts of the joints should be printed with 30°)
Support Pattern: Zig Zag
Connect Support ZigZags: Check
Support Density: 15 % (all parts of the joints should be printed with 25%)
Support Line Distance: 2.3333 mm (all parts of the joints should be printed with 1.4 mm)
Support Z Distance: 0.15 mm
Support Top Distance: 0.15 mm
Support Bottom Distance: 0.15 mm
Support X/Y Distance: 0.8 mm
Support Distance Priority: Z overrides X/Y
Minimum Support X/Y Distance: 0.2 mm
Support Stair Step Height: 0.3 mm
Support Stair Step Maximum Width: 5.0 mm
Support Join Distance: 2.0 mm
Support Horizontal Expansion: 0.2 mm
Support Infill Layer Thickness: 0.1 mm
Use Towers: Check
Tower Diameter: 3.0 mm
Minimum Diameter: 3.0 mm
Tower Roof Angle: 65°
Build Plate Adhesion
Build Plate Adhesion Type: Brim
Skirt/Brim Minimum Length: 250 mm
Brim Width: 8.0 mm
Brim Line Count: 15
Brim Only on Outside: Check
Union Overlapping Volumes: Check
Merged Meshes Overlap: 0.15 mm
Print Sequence: All at Once
Surface Mode: Normal
Extra Skin Wall Count: 0
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.