SpaceX Crew Dragon Model Printing
Follow me
FACEBOOK: https://www.facebook.com/groups/1797954133626126/?ref=bookmarks
ISTAGRAM: cody3d1 https://www.instagram.com/cody3d1/
TWITTER: https://twitter.com/Cody3D
ARTSTATION: artstation.com/cody3d/store
YOUTUBE: https://www.youtube.com/channel/UCegptSyuzQWuU1Fow04_MKw?view_as=subscriber
SpaceX Crew Dragon Model Printing File STL - OBJ for 3D Printing
Two version For printer FDM - FFF and for printer DLP – SLA - SLS
Assembly Figure more than 200 hours of modeling two versions however, the dimensions can be changed with each slicer
in total SpaceX Crew Dragon is composed of 1,2 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 approximately FDM-FFF W 14 Cm D 14 Cm H 20 Cm W 5,5 inch D 5,5 inch H 7,8 inch
dimensions approximately DLP-SLA-SLS W 7,5 Cm D 7,5 Cm H 11 Cm W 3 inch D 3 inch H 4,3 inch
all files are already in place for optimal printing
SpaceX Crew Dragon 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 Crew Dragon capsule is a reusable spacecraft developed and produced by SpaceX as part of the Commercial Crew Program (CCDev). It is the variant of the Dragon 2 for the transport of a human crew.
The spacecraft was presented on May 29, 2014, during a press conference at the SpaceX headquarters in Hawthorne, California.[2][3][4] It differs substantially from the previous model, the cargo version, operational from 2010 to 2020. The Dragon 2 has in fact an emergency life support system (ECLSS) capable of sustaining the crew for the duration of the flight; it is equipped with portholes, improved avionics, redesigned solar panels and a modified external structure.[5] It also features an integrated Launch Escape System (LES) capable of escaping the vehicle away from the rocket in an emergency with an acceleration of 11.8 m/s² (39 ft/s²), achieved using eight side-mounted SuperDraco engines, grouped in redundant pairs in four engine pods, with each engine producing 71 kN (16,000 lbf) of thrust, to rescue the crew in emergency situations that force the abandonment of the mission. The advantages of this configuration, instead of the conventional rescue tower are the reusability of the system, the possibility of using it until reaching orbit, the increase in safety resulting from the elimination of a separation event.[6]
On 6 May 2015, the first pad abort test was completed,[7] while another test of the engines took place on 24 November 2015.[8]
The first uncrewed test flight was carried out from pad 39A at the Kennedy Space Center in Florida on 2 March 2019[9], while the first crewed test, initially scheduled for 27 May 2020 but postponed to 30 May 2020 due to unfavorable weather conditions, was successful and docked with the ISS after about 19 hours[10][11][12] and then returned to Earth on 2 August 2020, with equal success, with a splashdown in the Gulf of Mexico. "Wikipedia"
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
LEGAL PRIVACY POLICY: Any UNAUTHORIZED use of my profile, video, pictures or audio in any form or in a forum now or in the future is NOT permissible without my expressed written consent. Any act to promote or gain profit in any manner (e.g. either monetarily or socially) from the use of my profile, video, pictures or audio in any form my profile is a violation of my privacy and subject to legal action. BY WATCHING THIS: You acknowledge and agree that you shall not post, upload, publish, transmit or make available in any way content of this page including images and recording streamed live video available for download. This is intended as, and presented as a one time, live, one view presentation only. Penalties of Copyright Infringement: By reproducing, republishing or redistributing the work of a copyright holder without permission, you may be violating or infringing on his or her rights under the Copyright Act. The copyright holder may sue for compensation cost from $ 250 to $ 150,000 or one year jail sentence
You will get 4 files
All files previously purchased will always be available for download in your Library