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3D model format
Stereolithography (.stl)
Total files
Slicer settings
Mesh error check
not specified
Support
Lifetime support from Gambody team
Update requests
not specified
Model versions
FFF/FDM
Assembly method
not specified
Features
DLP/SLA
Assembly method
not specified
Features
FFF/FDM
Assembly method
not specified
Features
DLP/SLA
Assembly method
not specified
Features
Additional details
Part of diorama
No
Special pack included
No
You will get instant access to the STL files of Ornithopter Dune 3D Printing Model | Assembly + Action after completing your purchase. Simply add the model to your cart and check out using PayPal, credit or debit card, Apple Pay, Google Pay, Alipay, or other available payment methods.
Watch the assembly video for Ornithopter Dune 3D Printing Model | Assembly + Action, and explore more tutorials, behind-the-scenes content, 3D printing timelapses, and painting guides on the official Gambody YouTube channel.
This 3D Model of Ornithopter from 2021 Dune consists of files in StereoLithography (.Stl) format that is optimized for 3D printing.
Before printing the files, we strongly recommend reading the PRINTING DETAILS section.
WHAT WILL YOU GET AFTER PURCHASE?
- 4 versions of Dune Ornithopter STL files for FFF/FDM and DLP/SLA - files for all versions are available for download after the purchase;
- STL files of high-poly 2021 Dune Ornithopter 3D Model for 3D printing consist of 224 parts;
- Sizes:
- FFF/FDM (platform + folded wings): 368 mm tall, 456 mm wide, 560 mm deep;
- DLP/SLA (platform + folded wings): 184 mm tall, 228 mm wide, 280 mm deep;
- FFF/FDM (extended landing gear + unfolded wings): 346 mm tall, 930 mm wide, 504 mm deep;
- DLP/SLA (extended landing gear + unfolded wings): 173 mm tall, 465 mm wide, 252 mm deep;
- Assembly Manual for FFF/FDM 1.0 and DLP/SLA 1.0 versions in PDF format;
- Detailed settings that we provide as a recommendation for Cura, Simplify3D and Slic3r for the best print- Full technical support from the Gambody Support Team.
Detailed information about this 3D printing model is available in the DESCRIPTION section.
Before printing, take a look at Printing Details for recommended settings and tips to achieve better results.
ABOUT THIS 3D MODEL
“ORNITHOPTER: (commonly: ’thopter) any aircraft capable of sustained wing-beat flight in the manner of birds.” Frank Herbert
The 2021 adaptation of the 1965 novel by Frank Herbert accomplished many goals with Denis Villeneuve’s storytelling approach and the immense scope of the narration. But most importantly, the 2021 Dune simultaneously opened up the classic sci-fi work to the younger audiences and successfully attempted to recreate the images of the vast universe that the previous adaptations managed only partially. One of such gems is the Ornithopter that the fans of the Dune universe have been longing to see brought onto the big screen from the pages of the grandiose novel.
Our contributing 3D artist put a lot of effort into this 3D printing project determined to do justice to the futuristic aircraft. The predatory metal dragonfly features four pairs of symmetrical flapping wings that can fold to imitate the Ornithopter’s power dive toward the ground. The angular windows of the cockpit reveal the detailed interior of the aircraft that can accommodate a pilot with a crew of four. Being “a perfect mix of the outlandish and the familiar”, the purpose of the Ornithopter becomes clear just by looking at it. But this fact doesn’t make the aircraft less captivating.
ADAPTATION FOR 3D PRINTING
Dune Ornithopter for 3D printing is an active assembly model and its moderation and adaptation for different types of 3D printers took Gambody team 104 hours in total. For you to receive the cleanest 3D printing result possible and to minimize the amount of filament needed for generated support, the desert aircraft was divided into many assembly parts that are provided as separate STL files. For you to impress the spectators with your 3D printed piece, the special articulation mechanism was designed to fit inside the ship and set the Ornithopter's wings into motion.
All assembly parts are provided in STL files of FFF/FDM version in recommended positions that were worked out in order to ensure the smoothness of the details’ surfaces after printing and that the 3D printing beginners won’t face difficulties when placing the parts on a build plate. When downloading any model’s file you will also receive “Assembly Manual” for FFF/FDM 1.0 and DLP/SLA 1.0 versions in PDF format. We highly recommend that you get acquainted with the “Assembly video” and “Assembly Manual” before getting down to the Ornithopter model.
The model is saved in STL files, a format supported by most 3D printers. All STL files for 3D printing have been checked in Netfabb and no errors were shown.The model’s scale was calculated from the approximate length of the Ornithopter which is 25500 mm. The 3D printing model’s chosen scale is 1:64 for the FFF/FDM version and 1:128 for the DLP/SLA version.
VERSIONS' SPECIFICATIONS
FFF/FDM 1.1 version features:
- Contains 73 parts;
- A printed model stands 368 mm tall, 456 mm wide, 560 mm deep (platform + folded wings), 346 mm tall, 930 mm wide, 504 mm deep (extended landing gear + unfolded wings);
- New platform with separated stand to print in color;
- New ramp pillars;
- New stand for the folded wings;
- New authentic wing mounts;
- All parts are divided in such a way that you will print them with the smallest number of support structures.
DLP/SLA 1.1 version features:
- Contains 52 parts;
- A printed model stands 184 mm tall, 228 mm wide, 280 mm deep (platform + folded wings), 173 mm tall, 465 mm wide, 252 mm deep (extended landing gear + unfolded wings);
- New platform with separated stand to print in color;
- New ramp pillars;
- New stand for the folded wings;
- New authentic wing mounts;
- All parts are divided in such a way to fit the build plates and to ensure that support structures are generated where needed.
FFF/FDM 1.0 version features:
- Contains 61 parts;
- A printed model stands 368 mm tall, 456 mm wide, 560 mm deep (platform + folded wings), 346 mm tall, 930 mm wide, 504 mm deep (extended landing gear + unfolded wings);
- There are two variants of the Ornithopter’s body - with and without the House Atreides emblem;
- The aircraft’s interior boasts a fascinating level of detail + pilot’s controls are articulated;
- Adjustable grip connectors inside wings’ mounts allow multidirectional movement of all wings;
- Two variants of landing gear - folded to display the aircraft in flight mode and unfolded to display model without the platform;
- Both front “feet” (landing gear) have three points of articulation;
- Rear ramp opens + there are notches to secure the opened ramp with a piece of a 1.75mm filament;
- Display Ornithopter without a platform on the extended landing gear by assembling the opening ramp with additional rear “feet”;
- Rear “feet” that support the opening ramp are articulated, as well as the hooks on the ramp;
- The missiles are fully articulated;
- Assembly of the articulated elements in the FDM version requires additional “pins” that do not come in STL files but can be made out of short pieces of regular 1.75mm filament;
- The cockpit windows come as separate assembly parts to be printed with transparent material;
- There are two variants of Ornithopter's wings that differ in thickness to choose from;
- You can light up the spacious interior of the Ornithopter;
- All parts are divided in such a way that you will print them with the smallest number of support structures.
DLP/SLA 1.0 version features:
- Contains 38 parts;
- A printed model stands 184 mm tall, 228 mm wide, 280 mm deep (platform + folded wings), 173 mm tall, 465 mm wide, 252 mm deep (extended landing gear + unfolded wings);
- There are two variants of the Ornithopter’s body - with and without the House Atreides emblem;
- The aircraft’s interior boasts a fascinating level of detail;
- Adjustable grip connectors inside wings’ mounts allow multidirectional movement of all wings;
- Two variants of landing gear - folded to display the aircraft in flight mode and unfolded to display model without the platform;
- Rear ramp opens + there are notches to secure the opened ramp with a piece of a regular paper clip;
- Display Ornithopter without a platform on the extended landing gear by assembling the opening ramp with additional rear “feet”;
- The hooks on the ramp are articulated + the missiles rotate;
- Assembly of the articulated elements in the SLA version requires additional “pins” that do not come in STL files but can be made out of short pieces of a regular paper clip;
- The cockpit windows come as separate assembly parts to be printed with transparent material;
- There are two variants of Ornithopter's wings that differ in thickness to choose from;
- There is an alternative set of wings with a 1/16" hole for a steel pin for added strength;
- All parts are divided in such a way to fit the build plates and to ensure that support structures are generated where needed.
You can get the model of Ornithopter Dune for 3D Printing immediately after the purchase! 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.
Watch the tutorial on how to assemble Ornithopter Dune 3D Printing Model at Gambody YouTube channel.
Also, you may like other Fiction3D Printing Models or Space Ships 3D Printing Models.
_______
FAQ:
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4.3
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5
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This feedback is from a user who hasn't purchased this model Level of detail in the model
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Model cut quality and assembly guide
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Clarity and accuracy of the model page
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This feedback is from a user who hasn't purchased this model Level of detail in the model
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Model cut quality and assembly guide
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Below you'll find detailed slicing settings for Bambu Studio 2.0+, Orca Slicer 2.0+, UltiMaker Cura 5.0+, PrusaSlicer 2.0+, Slic3r 1.3+, Simplify3D 5.0+ to help you get the best results when printing this model. These settings are optimized specifically for this 3D model, but please note they may need slight adjustments depending on your printer or filament. When in doubt, refer to your printer's user manual.
To avoid printing issues and achieve the best quality, we highly recommend applying the following settings:
Bambu Studio 2.0+ For better quality use 0.12 mm layer height, for fast printing use 0.2 mm layer height. For pins and the Ge connectors, use 0.2 layer height.
120-150% of your Layer Height
But you can paint the seam if you want.
You have to calibrate this parameter
You have to calibrate this parameter
You have to calibrate this parameter
For pins and power elements of the structure, such as the vehicle frame, use 3 loop
Disabled for vehicles and enabled for characters
For 0,2 Layer Height
The parameters in this tab vary greatly, it all depends on the quality of your printer. For example, if you have a classic Ender3, stick to the minimum parameters, but if you have a newer printer, for example Anycubic cobra 3 v2, you can select the maximum recommended values
Settings for advanced users, change these parameters only if you have sufficient 3D printing expertise
Enable this parameter if your model requires supports
We also recommend placing and removing supports manually in some places using special button
1-2 loops for more thick support
Top Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
Bottom Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
You have to calibrate this parameter which one is better for your filament
Increase this parameter if the supports are hard to remove from walls
For PLA and PETG filament types
5-8 mm is optional for small prints that have bad adhesion to the build plate
You have to calibrate this parameter
Read the description on your filament roll
Read the description on your filament roll and increase this parameter for fast printers
Read the description on your filament roll and increase this parameter for fast printers
Orca Slicer 2.0+ For better quality use 0.12 mm layer height, for fast printing use 0.2 mm layer height. For pins and the Ge connectors, use 0.2 layer height.
120-150% of your Layer Height
But you can paint the seam if you want.
0.01-0.05 You have to calibrate this parameter
0.01-0.05 You have to calibrate this parameter
0.1-0.2 You have to calibrate this parameter
For pins and power elements of the structure, such as the vehicle frame, use 3 loop
Disabled for vehicles and ships, enabled for characters
For 0,2 Layer Height
For 0,2 Layer Height
The parameters in this tab vary greatly, it all depends on the quality of your printer. For example, if you have a classic Ender3, stick to the minimum parameters, but if you have a newer printer, for example, Anycubic Kobra 3 Or Bambulab A1, you can select the maximum recommended values.
Settings for advanced users, change these parameters only if you have sufficient 3D printing expertise
Enable this parameter if your model requires supports
We also recommend placing and removing supports manually in some places using special button
Top Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
Bottom Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
Increase this parameter if the supports are hard to remove from walls
For PLA and PETG filament types
5-8 mm is optional for small prints that have bad adhesion to the build plate
Read the description on your filament roll
Read the description on your filament roll and increase this parameter for fast printers
You have to calibrate this parameter
Read the description on your filament roll and increase this parameter for fast printers
Read the description on your filament roll
This field is filled in according to your printer specifications when you add it to the slicer.
You can add custom G-code here for the start and end of the print. However, be careful - this is for advanced users only!
You have to calibrate your printer using Ge retraction test models
Retraction Length: For direct-drive setups use 0.5 mm to 2.5 mm; for Bowden extruders use 5 to 7 mm
This is how fast the filament is pulled back—40-60 mm/s for direct drive and 30-50 mm/s for Bowden setups.
You have to calibrate this parameter: Reduce it until the printer starts to hit the parts with the nozzle during printing, then increase it by 0.2.
UltiMaker Cura 5.0+ For better quality use 0.12 mm layer height, for fast printing use 0.2 mm layer height. For pins and the Ge connectors, use 0.2 layer height.
120-150% of your Layer Height
To increase the strength of the print parts, use wall line count: 3
For pins and connectors use 50% Infill
These parameters are for standard PLA plastic. If you are using a different type of plastic, check the printing temperature recommended by the manufacturer. Also, read the description on your filament spool. For fast printers, add +30 °C to the current parameters.
The parameters in this tab vary greatly, it all depends on the quality of your printer. For example, if you have a classic Ender3, stick to the minimum parameters, but if you have a newer printer, for example Anycubic cobra 3 v3, you can select the maximum recommended values
Settings for advanced users, change these parameters only if you have sufficient 3D printing expertise.
You need to calibrate this parameter using Gambody test models. These values are average values for a Direct Drive extruder; for a Bowden extruder, the values should be increased.
You need to calibrate this parameter using Gambody test models. These values are average values for a Direct Drive extruder; for a Bowden extruder, the values should be increased.
Use this value other than 0 if your nozzle catches on the internal infill during travel moves. Try to keep this value as low as possible in height.
Use normal supports to support large, straight surfaces (most mechanical or technical parts).
You have to calibrate this parameter according to the capabilities of your printer and your filament, using a Gambody test models.
Use 1 instead of 0 if your supports are thin and tall. They will be harder to remove, but much stronger.
Top Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
Increase this parameter if the supports are hard to remove from walls
Use tree supports to support complex objects, such as characters.
You have to calibrate this parameter according to the capabilities of your printer and your filament, using a Gambody test models.
Top Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
Increase this parameter if the supports are hard to remove from walls
Use a skirt for all parts when printing on outdated printers.
Use a brim when printing thin but tall parts, as well as parts with a small bed adhesion area.
PrusaSlicer 2.0+ For better quality use 0.12 mm layer height, for fast printing use 0.2 mm layer height. For pins and the Ge connectors, use 0.2 layer height.
120-150% of your Layer Height
for 0.2 Layer Height
But you can paint the seam if you want.
(for PLA and PETG)
(5-8 mm is optional for small prints that have bad adhesion to the build plate)
Enable this parameter if your model requires supports
(45-50 degree)You have to calibrate this parameter according to the capabilities of your printer
and your filament, using a Gambody test models.
Top contact Z distance = 1-1.3 layer Height. If the supports are hard to remove, try
increasing this setting by 0.1-0,4 mm
Top contact Z distance = 1-1.3 layer Height. If the supports are hard to remove, try
increasing this setting by 0.1-0,4 mm
Increase this parameter if the supports are hard to remove from walls
The parameters in this tab vary greatly, it all depends on the quality of your printer. For example, if you have a classic Ender3, stick to the minimum parameters, but if you have a newer printer, for example Anycubic cobra 3 v3, you can select the maximum recommended values
Settings for advanced users, change these parameters only if you have sufficient 3D printing expertise. Use the minimum value for outdated printers without acceleration calibration, and the maximum value for modern printers if you need it.
These settings only work for 3D printers with multiple extruders
You can try setting all parameters in this section, except the First layer, to values between 0.75% of your nozzle diameter and 1.25% of your nozzle diameter. Adjusting them will help you work out the optimal parameters for the best quality for your print. As for the First layer, you can set it to 150% of the diameter of your nozzle for better adhesion to the build plate (for a nozzle with a diameter of 0.4 mm, the First layer extrusion width can be from 0.3 mm to 0.5 mm)
For better printing quality you have to calibrate this parameter using Gambody test model.
Check your filament manufacturer's temperature recommendations on the spool.
Cooling parameters depends on the material you use for printing.
*for PLA
Slic3r 1.3+ For better quality use 0.12 mm layer height, for fast printing use 0.2 mm layer height. For pins and the Ge connectors, use 0.2 layer height.
120-150% of your Layer Height
For 0.12 Layer Height
For 0.12 Layer Height
For pins and connectors use 50% Infill
Use skirt for outdated 3d printers
(5-8 mm is optional for small prints that have bad adhesion to the build plate)
Enable this parameter if your model requires supports
(45-60 degree)You have to calibrate this parameter according to the capabilities of your printer and your filament, using a Gambody test models
Contact Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
The parameters in this tab vary greatly, it all depends on the quality of your printer. For example, if you have a classic Ender3, stick to the minimum parameters, but if you have a newer printer, for example Anycubic cobra 3 v3, you can select the maximum recommended values
Settings for advanced users, change these parameters only if you have sufficient 3D printing expertise. Use the minimum value for outdated printers without acceleration calibration, and the maximum value for modern printers if you need it.
You have to calibrate this parameter from 0.9 to 1.1 according to the capabilities of your printer and your filament, using a Gambody test models.
Check your filament manufacturer's temperature recommendations on the spool.
Cooling parameters depends on the material you use for printing.
Calibrate this value if you need to reduce or improve the adhesion between the plastic and the heat bed
Your current nozzle diameter
You need to calibrate this parameter using Gambody test models. These values are average values for a Direct Drive extruder; for a Bowden extruder, the values should be increased.
Simplify3D 5.0+ Your current nozzle diameter
You have to calibrate this parameter using Gambody test models.
You need to calibrate this parameter using Gambody test models. These values are average values for a Direct Drive extruder; for a Bowden extruder, the values should be increased.
For better quality use 0.12 mm layer height, for fast printing use 0.2 mm layer height. For pins and the Ge connectors, use 0.2 layer height.
For 0,2 Layer Height
For 0,2 Layer Height
To increase the strength of the print parts, use Outline Perimeters: 3
You can enable this parameter to print rounded or spherical models, as well as character models.
Use this option only if your parts are too tight. but better calibrate your printer extrusion
Use this option only if your parts are too tight. but better calibrate your printer extrusion
Use 2 and more if you want to create skirt instead brim
1-2 for skirt and 10-20 for brim
Use for wipe nozzle if you need
Use For ABS filament
For pins and connectors use 50% Infill
Top Z distance = 1-1.3 layer Height. If the supports are hard to remove, try increasing this setting by 0.1-0,4 mm
Calibrate your filament and detect optimal temperature for it
Average temperature for PLA filament
The parameters in this tab vary greatly, it all depends on the quality of your printer. For example, if you have a classic Ender3, stick to the minimum parameters, but if you have a newer printer, for example Anycubic cobra 3 v3, you can select the maximum recommended values
Settings for advanced users, change these parameters only if you have sufficient 3D printing expertise.
