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The Ringwatchers

@Ringwatchers

Jul 14 • 16 tweets • 6 min read Twitter logo

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Ship 24.2. A confusing test article with a confusing name that has had a confusing life thus far. Today we’re going to talk about how SpaceX is planning to structurally verify the Starship Payload Bay, and why this monstrosity exists. (1/16)

🖼️ @ChameleonCir

Ship 24.2 will be a 7-ring tall article composed of 3 main sections: a top ring with a dome and 24 external attachment points, a Ship Payload Bay that features a PEZ dispenser rack, and a bottom ring with a hatch in the side. (2/16)

🖼️ @ChameleonCir

Knowing that this is a 7-ring tall test article, we were able to quickly determine that the newly reconfigured nosecone cage is the perfect height to support this. We’ll come back to this later. (3/16)

📸 @RGVaerialphotos
🖼️ @ChameleonCir

The top ring generated a lot of speculation over the last few months, and while many believed it was related to the HLS lander or hot staging, both of these now seem unlikely. We think this is quite simply a testing interface. (4/16)

📸 @CosmicalChief for @FelixSchlang

This ring features a rusty plate on top with 4 attachment points on it, which seem randomly placed, but that’s almost never the case when it comes to these kinds of articles. So what do these line up with? (5/16)

📸 @RGVaerialphotos
🖼️ @ChameleonCir

If we look at the “nosecone” cage in its updated configuration, we can see new piston mounts on the top. When placed in the model, they line up perfectly with that rusty plate. (6/16)

📸 @RGVaerialphotos
🖼️ @ChameleonCir

While the 24 protrusions on the side do penetrate through the hull, their shape indicates that they may be some kind of pull-point for pistons. The cage was also modified to have possible piston mounts. (7/16)

📸 @CosmicalChief for @FelixSchlang, @RGVaerialphotos

However, it appears to just be 12 mounts on the cage. It’s unclear what this will look like, but they may be able to have 1 piston attach to 2 points or some other type of setup. While their purpose is still speculation, it doesn’t seem impossible. (8/16)

📸 @RGVaerialphotos

The dome could serve a couple of purposes. A likely possibility is that this may just be serving as a stand-in for a nosecone, allowing the volume to be lightly pressurized, and also adding some rigidity at the top. (9/16)

📸 @thejackbeyer for @NASASpaceflight
🖼️ @ChameleonCir

The bottom of the article would meet the flat surface that the cage base features, closing off the bottom as well. The low pressure does not necessarily need a dome, and the Payload Bay wouldn’t normally have a concave dome underneath anyway. (10/16)

🖼️ @ChameleonCir

The Payload Bay features a PEZ dispenser on the inside, and while it had a sliding door, it no longer does. Like Ship 28, a door could possibly be reinstalled, as both the seals and actuators remain. (11/16)

📸 @CosmicalChief for @FelixSchlang, @RGVaerialphotos
🖼️ @ChameleonCir

Finally, the bottom ring is a replica of the ring that would be below the Payload Bay (normally assembled with the Forward Dome). Notably, this ring and the pathfinder for the top ring came outside at the exact same time. (12/16)

📸 @LabPadre, @cnunezimages, @RGVaerialphotos

Speaking of timelines lining up, around the time some of these sections were in production, SpaceX was modifying the nosecone cage base with those 12 potential piston mounts from before. (13/16)

📸 @RGVaerialphotos

While the above is still speculation, there’s quite a bit of evidence to back this all up. Together, this should likely allow the Payload Bay to have both compressive and torsion forces applied to it, something that is crucial to make sure it will survive flight loads. (14/16)

Today’s thread was a bit longer, but S24.2 is a significant test article as SpaceX attempts to fly Starlink satellites on Starship. Maybe you agree with us, maybe you don’t. Either way, we’ll find out in due time, and it’ll be interesting if anything. (15/16)

As a side note, it’s been an adventure tracking these parts, and if you’d like us to go a bit deeper into some of the really strange stuff that happened while they were being produced to give a bit more background, let us know below. (16/16)

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More from @Ringwatchers

The Ringwatchers

@Ringwatchers

Jul 10

https://twitter.com/elonmusk/status/1678205301349130240

With this new photo from Elon Musk, there’s been a lot of discussion about what exactly we’re seeing. Today’s quick thread is going to go a bit deeper into what we can learn from this photo. (1/10)

https://twitter.com/elonmusk/status/1678205301349130240

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Jun 17

@CosmicalChief

Some interesting developments have been happening lately with Starship 28, with one of the major ones being the removal of its sliding Payload Bay door. Let’s take a closer look at how this was done, and what it could mean. (1/6)

📸 @CosmicalChief

@NASASpaceflight

On June 15th, crews attached a crane to Ship 28’s sliding door, and after somehow reorienting it inside of the vehicle, slid it out. We’ve included an animation of how it was removed if it’s hard to tell from the recording. (2/6)

📸 @NASASpaceflight
🖼️ @ChameleonCir

@CosmicalChief

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📸 @CosmicalChief
🖼️ @ChameleonCir

Read 6 tweets

The Ringwatchers

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Jun 11

@RGVaerialphotos

Ship 25 has had quite a life so far, and it hasn’t even had its first static fire. Let’s take a look at why this Starship has been so confusing, why many thought it was retired, and how it’s different from Ship 24. (1/13)

📸 @RGVaerialphotos

@RGVaerialphotos

@RGVaerialphotos Ship 25 was fully stacked in the Highbay on September 12th, 2022, and was moved to the Launch Complex for cryogenic testing on October 19th. It conducted 3 cryo tests, before being moved back to the Highbay to receive its engines. (2/13)

📸 @NASASpaceflight @LabPadre

@RGVaerialphotos

@RGVaerialphotos @NASASpaceflight @LabPadre In the Highbay, all 6 engines were installed on Ship 25, and the PEZ Dispenser slot on the front was welded closed. Ship 25’s engines still use hydraulically-powered TVC, which changes to electric on Ship 26. (3/13)

📸 @LabPadre

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The Ringwatchers

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@RGVaerialphotos

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📸 @RGVaerialphotos

@RGVaerialphotos

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@RGVaerialphotos

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The Ringwatchers

@Ringwatchers

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@CosmicalChief

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📸 @CosmicalChief
Animations provided by @ChameleonCir

@CosmicalChief

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📸 @SpaceX @RGVaerialphotos

@CosmicalChief

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📸 @LabPadre @NASASpaceflight @SpaceX

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The Ringwatchers

@Ringwatchers

Mar 12

@CosmicalChief

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📸 @CosmicalChief

@CosmicalChief

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📸 @RGVaerialphotos

@CosmicalChief

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🖼️ @ChameleonCir