Lunar Module Apollo 11 STL-OBJ files for 3D printers

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Lunar Module Apollo 11 STL-OBJ files for 3D printers FDM-FFF DLP-SLA-SLS

Assembly Figure
more than 200 hours of modeling
two versions
however, the dimensions can be changed with each slicer

in total Lunar Module is composed of 5,000 mil points
all the files have been decimated by the polygons, but without losing the details, this makes the light files suitable for each computer

dimensions FDM-FFF W 43 Cm D 43 Cm H 33 Cm

W 17 inch D 17 inch H 13 inch

dimensions DLP-SLA-SLS W 18 Cm D 18 Cm H 13 Cm
W 7 inch D 7 inch H 5 inch

all files are already in place for optimal printing

Lunar Module 3D model was designed to get a clean print result, without considering printing material consumption, However, you are free to rotate, or scale,
every part of the model in the most convenient way for you.
Each file has been checked and repaired with Netfabb
The parts of the model are already positioned for 3D printing
Compatible with every Slicer- Simplify3D, Care, Slic3r, etc ...
All the parts of the model have been cut so as to be printed vertically, for a higher quality of printing

The Apollo Lunar Module (LM /ˈlɛm/), originally designated the Lunar Excursion Module (LEM), was the lunar lander spacecraft that was flown between lunar orbit and the Moon's surface during the United States' Apollo program. It was the first crewed spacecraft to operate exclusively in the airless vacuum of space, and remains the only crewed vehicle to land anywhere beyond Earth.
Structurally and aerodynamically incapable of flight through Earth's atmosphere, the two-stage lunar module was ferried to lunar orbit attached to the Apollo command and service module (CSM), about twice its mass. Its crew of two flew the complete lunar module from lunar orbit to the Moon's surface. During takeoff, the spent descent stage was used as a launch pad for the ascent stage which then flew back to the command module, after which it was also discarded.
Overseen by Grumman, the LM's development was plagued with problems that delayed its first uncrewed flight by about ten months and its first crewed flight by about three months. Still, the LM became the most reliable component of the Apollo–Saturn space vehicle.[1] The total cost of the LM for development and the units produced was $21.3 billion in 2016 dollars, adjusting from a nominal total of $2.2 billion[2] using the NASA New Start Inflation Indices.[3][failed verification]
Ten lunar modules were launched into space. Of these, six were landed by humans on the Moon from 1969 to 1972. The first two flown were tests in low Earth orbit: Apollo 5, without a crew; and Apollo 9 with a crew. A third test flight in low lunar orbit was Apollo 10, a dress rehearsal for the first landing, conducted on Apollo 11. The Apollo 13 lunar module functioned as a lifeboat to provide life support and propulsion to keep the crew alive for the trip home, when their CSM was disabled by an oxygen tank explosion en route to the Moon.
The six landed descent stages remain at their landing sites; their corresponding ascent stages crashed into the Moon following use. One ascent stage (Apollo 10's Snoopy) was discarded in a heliocentric orbit after its descent stage was discarded in lunar orbit. The other three LMs were burned up in the Earth's atmosphere: the four stages of Apollo 5 and Apollo 9 each re-entered separately, while Apollo 13's Aquarius re-entered as a unit.
"wikipedia"

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Recommended settings for printing

each part was cut to be printed vertically, to have a better quality print, so for the upper parts,
it is recommended to print with a 4-5 skirt

Quality
Layer height: 0.1mm*
Initial layer thickness: 0.3mm
Bottom/top pattern: lines
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.

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.

Speed setups:
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:

Infill pattern: Grid
Line distance: 1.5mm
Infill overlap: 20%
Infill layers: 0
Support:

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: Grid
Line distance: 1.5mm