SpaceX Dragon Just Did What Russia’s spacecraft IMPOSSIBLE

SpaceX Dragon Just Did What Russia’s spacecraft IMPOSSIBLE

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"SpaceX Dragon Just Did What Russia’s spacecraft IMPOSSIBLE!
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#techmap #techmaps #elonmusk #starshipspacex
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Intro 0:00
Reusable but smart 0:44
Becoming a standard feature for commercial vehicles in the US 3:52
Data for future missions 7:02
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SpaceX Dragon Just Did What Russia’s spacecraft IMPOSSIBLE!
Firing thrusters for over 19 minutes to boost the entire ISS higher — that’s a huge achievement SpaceX’s Dragon spacecraft has just pulled off.
This wasn’t a routine maneuver. It marked Dragon’s fifth reboost in the CRS-33 mission series, proving that SpaceX’s capsule can now handle a task long dominated by Russia’s Progress spacecraft.
Here’s the kicker: during this 19-minute burn, Dragon accomplished something Progress has never been able to do.
So how did Dragon manage to outperform Progress? And why do experts believe this moment signals a major shift in space operations and international cooperation?
Let’s break it down in today’s Techmap episode.
SpaceX Dragon Just Did What Russia’s spacecraft IMPOSSIBLE!
To begin with, Dragon was originally designed to carry cargo to the ISS, not to conduct orbital reboosts like Russia’s Progress vehicle. Gaining that capability required solving several engineering challenges.
The capsule’s Draco thrusters were not positioned for efficient boosting maneuvers; they were meant to control Dragon’s own movement. SpaceX addressed this by installing two rear-facing Draco engines aligned with the station’s velocity vector. These engines are part of a “boost kit” mounted in Dragon’s trunk section.
SpaceX Dragon Just Did What Russia’s spacecraft IMPOSSIBLE!
The engines draw propellant from six dedicated tanks in the trunk that hold hydrazine and nitrogen tetroxide—two chemicals that ignite on contact. The tanks are wrapped in silver insulation, with a central helium pressurant tank covered in black carbon fiber.
To control the system, SpaceX used existing communication lines on Dragon, routing them through the station’s docking mechanism. The company also reused hardware wherever possible: the two Draco engines were taken from the Crew-8 mission, and the six propellant tanks came from 2020 abort test units.
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