Boeing ramps up final assembly to complete Artemis II SLS Core Stage by year end

Date:
Sat, 28 Oct 2023 21:12:22 +0000

Description:
Following a cost-saving summer slowdown, NASA Space Launch System (SLS) Core Stage prime contractor Boeing The post Boeing ramps up final assembly to complete Artemis II SLS Core Stage by year end appeared first on NASASpaceFlight.com .

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Following a cost-saving summer slowdown, NASA Space Launch System (SLS) Core Stage prime contractor Boeing is again working two shifts a day at the
Michoud Assembly Facility (MAF) in New Orleans to complete final testing and checkout of the unit that will help send NASA astronauts back to the Moon on the Artemis II mission. Boeing plans to complete testing around the end of November, which would leave a few weeks of final thermal protection system (TPS) and configuration work to complete Core Stage-2 (CS-2) by the end of
the year.

NASA approved reducing work activity on the stage down to a single work shift in the summer when issues with a supplier finishing liquid oxygen (LOX) feedline parts delayed their delivery until late September. Although Boeing may complete the stage by the new year, the space agency has not said when it will ship the stage to its Kennedy Space Center (KSC) launch site.



Final integrated testing started

Following initial bolting of the four RS-25 engines to the stage in mid/late September , the last of the four engines was hard mated on Oct. 6. Boeing started the final test and checkout campaign on the stage that same week,
with the test readiness review (TRR) for final integrated function test
(FIFT) completed on Oct. 2.

We are roughly 16 percent complete; weve been through safe-to-mates [and] initial power-on, Tim Burroughs, Boeings Integrated Product Team Lead for
both Core Stage-2 and Core Stage-3, said in an interview with NSF at Michoud on Oct. 19. Weve been through all the primary boxes powered on CLSS (Cryogenic Level Sensing System), RINU (Redundant Inertial Navigation Unit), RGA (Rate Gyro Assemblies), etcetera. We just started yesterday (Oct. 18) our channelization activities on our DFI (development flight instrumentation),
OFI (operational flight instrumentation) sensors, thats fairly lengthy.

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Channelization testing will verify that every one of the hundreds or
thousands of sensors on the stage respond to commands from its flight computers as specified. The first two stages have essentially the same
package of sensors, Burroughs said: Both have the same sensors, with the exception of the Green Run sensors, theyve been removed, obviously.

NASA decided several years ago to drop the requirement that the second core stage go through a Green Run test campaign at nearby Stennis Space Center in southern Mississippi. Once we get through channelization, the next big test
is the engine interface leaks, thats when we pressurize the tanks and make sure all the engine interfaces obviously dont leak, Burrough said.

One of the lessons learned from final assembly during the first core stage build was to wait until after the leak checks of the stage-to-engine interfaces to install the final segments of the LOX feedlines , also called downcomers. During the interface leak checks for the first build, a lot more helium gas was consumed than necessary; helium is currently a scarce commodity, and Burroughs noted that this time blank-off plates are installed on the ends of the two partially installed downcomers. Credit: NASA/Steven Seipel.

(Photo Caption: The four RS-25 engines are seen on Sept. 20, after initial installation into Core Stage-2, the unit that will used for the Artemis II mission. In this view, we are looking from the floor of final assembly up toward the ceiling.)

We have blank-off plates installed on segment fours, he said. Segment fives are sitting ready to [be installed] as soon as we get through that test case. At the time of the interview, three segments remained to be installed on the two downcomers, two segment fives and a segment six. The latter segment can
be installed before the leak checks, which attaches on the outside of the stage where the two feedlines exit the inside of the interank.

Following the stage-to-engine interface leak checks, Burroughs said that the FIFT would move on to testing of the stages battery units and functional testing of the LOX and liquid hydrogen (LH2) systems. The two propellant
tanks will be pressurized again, and all the stage main propulsion system (MPS) valves and related hardware will be tested.

There still remains some thermal protection system (TPS) applications to complete, both within the stages interior and on its exterior; Burroughs said Boeing will do as much final spray-on foam insulation (SOFI), cork, and white hypalon paint work as they can during FIFT on a non-interference basis.

Were working that concurrently, he said. Test gets priority, obviously. We have a board over there that allows certain work to be done based on what
were doing in test, but the plan is to get all the [bolted] flanges closed
out [with SOFI], as well as all the hypalon here, in parallel with test.

And then theres a whole host of work that you have to do post FIFT.

One of the most visible differences in the final integrated test campaign for this second and last core stage to be fully assembled at MAF is testing the stages hydraulics and thrust vector control (TVC) system. The add-on here
from Stennis is the TVC actuation, thats the new test here at MAF. We did
that at Green Run in the vertical.

The stage will gimbal the four engines to verify the TVC systems and the hydraulic interfaces to four RS-25 engines.

A formal break of configuration review will be held at the end of FIFT, which will confirm that the vehicle systems behaved correctly, and all the required test data was collected with the hardware in its test configuration before disconnecting test equipment. Right now, the forecast for break of configuration is around November 30, barring no findings in FIFT. Burroughs said. Credit: Philip Sloss for NSF.

(Photo Caption: One of the LOX feedline segments is seen in the final assembly area on Oct. 19 ahead of final preparations for installation, which was planned for the next day. The hardware had been moved from elsewhere on the factory floor at Michoud just a few hours earlier.)

Access to some internal interfaces for testing has to be covered with foam
for flight, and that cant occur until after the test equipment is removed. Youve got to do TPS closeouts and different electrical mates, post FIFT, when you disconnect the test equipment and reinstall flight [equipment]. The stage flight computers are loaded with a special fork of the SLS flight software code for acceptance testing of systems during final assembly and one of the final steps before break of configuration will be to upload and install the flight computer application software (FCAS) onto the three computers.

Following completion of FIFT, there is approximately two to three weeks worth of final configuration of the stage, both for shipment to KSC and for flight. Thats the whole rotation [sequence] that takes two to three weeks to get all that activity completed, Burroughs said. With the stage in a horizontal orientation, it needs to be rotated to provide working access for the teams doing final detailing work on the exterior of the stage.

Boeing plans to complete Core Stage-2 by the end of the year; NASA is waiting until closer to completion of the stage to decide when to ship it from New Orleans to KSC for integration with the rest of the flight vehicle for the Artemis II crewed, lunar flyby mission .

Last horizontal final assembly planned

Core Stage-2 is the second and last unit that will be fully assembled at Michoud in a horizontal orientation. In the future, final assembly will be performed vertically in High Bay 2 of the Vehicle Assembly Building, where Boeing is currently laying the groundwork for eventual installation of platforms that will support work and/or storage of two core stages concurrently.

Final assembly of the first core stage was originally conceived to be partially vertical, partially horizontal; when the major joins of the different pieces of the stage were converted to a horizontal operation, a few assembly tasks were deferred to Stennis during the Green Run, when the stage was installed vertically in the B-2 Test Stand there. One of the last remaining production tasks was full attachment and securing of the four LH2 engine feedlines that run from the bottom of the stages LH2 tank to the hydrogen inlets for each of the RS-25 engines.

For this last horizontal build, which wont go to Stennis, tooling and procedures were developed to fully secure the feedlines in that orientation
at Michoud. Burroughs said that the feedline attachments went exceptionally well.

We did a lot of pre-planning based on lessons learned on CS-1, installing access kits for the first time, he noted. So we built that tool up outside,
we scanned it, we scanned the as-built configuration of the engine section, identified any issues we had well in advance of installing it, made some tweaks to the tool, and it went in extremely [well], actually took about five days to install it. Credit: NASA/Michael DeMocker.

(Photo Caption: Core Stage-2 is seen during a visit by NASA deputy administrator Pam Melroy on March 31; at the time, the stage was rotated in a special orientation, called 270-degrees up for mating the LH2 engine
feedlines inside the engine section. The stage was subsequently rotated to 90-degrees up to complete the rest of the feedline mates.)

We had better than planned access, we were able mate those feedlines quite efficiently, actually. The feedlines were attached shortly after the engine section was mated to the rest of the stage in mid-March, which required the stage to be rotated a couple of times.

The kit goes in twice, Burroughs said. You go in and do two feedlines and the fill and drain line in one orientation and then you have to pull the kit, rotate, put it back in, and get the other two.

That work had to be completed at the beginning of the sequence after the engine section was mated, because installation of platform kits inside the intertank, engine section, and boattail areas required the stage to be in the second orientation.

Final integrated testing of the stage is occurring about four years after the first build reached that milestone in the fall of 2019. Were essentially almost four years to the day we were at the same spot on CS-1 and as everyone knows we delivered [that in] early January [2020], Burroughs noted.

Were about three weeks ahead [with this build from] where we were [with the first one], so were postured real well now to finish the vehicle by the end
of the year. Mechanically, the stage is further along than CS-1 was [at this time], with the exception of the two feedline segments that we purposefully left off.

The systems tunnel is further along; we have to put the covers on, post FIFT, he added. Most of those are staged throughout the [final assembly] area
around here.

Aerodynamic fairings for the two LOX feedlines were seen in the area being prepared for installation; one had already seen its cork and white paint applied, the other was still getting its layer of cork. Almost all of the systems tunnel cover plates are covered with spray-on foam, with the
exception of the elements on the end that get cork and white paint.

Most of those systems tunnel cover plates will be installed for shipment to KSC. We intentionally leave four or five of them off for the shaped charges
to [be installed in Florida at KSC]. Well put plastic [covers] there because dont want them [taken] on and off, on and off. When we went to Stennis with CS-1 they were red, tooling covers for the environment, [they] did not need the foam for Green Run. Credit: NASA/Frank Michaux.

(Photo Caption: The Green Run blackened boattail of the Artemis I core stage is seen in the Vehicle Assembly Building at KSC in May 2021. The black transportation heatshield blankets with the Boeing labels will be used for
the upcoming shipment of the Artemis II core, but the rest of the boattail should have its flight coat of white paint rather than the silver foil that can be seen here where it wasnt burned off by the Green Run hot-fire tests.)

In addition, two-piece engine fairings will be installed after FIFT, part of the requirement to rotate the vehicle to different orientations. Non-flight, engine mounted heatshield blankets will also be installed to seal the engine section so that the inside can be kept dry.

Weve got to maintain purge for shipping inside the engine section so that makes it air tight around the engines, Burroughs noted. He also noted that Aerojet Rocketdyne, an L3Harris Technologies Company, will install their red covers over the nozzles for the barge trip to KSC.

The boattail will also look a little different at completion this time
without the silver, foil tape that was applied for the Green Run hot-fire. Instead, the bottom of the stage will have a more flight-like appearance, mostly covered with white paint over the top of cork.

NASA approves of work slow down in the summer, delays completion to end of year

NASA approved a slow down of Boeings work to complete the stage in the middle of the year, due to delays in shipment of a couple of the LOX feedline
segment from a supplier.

Our last two segment five downcomers they did not have a DX rating at the supplier, Burroughs explained. That, coupled with other challenges with those feedlines, delayed the delivery of those.

So, Boeing purposely working with NASA scaled back the final assembly work scope on CS-2 to a single shift, looking for affordability options, if you will. Now that the feedlines came in, we ramped back up to dual-shift, all-hands-on-deck to finish the vehicle.

NASAs Inspector General recently published an Oct. 19 report with the first words on the delays caused by national security priorities at the parts supplier. The Department of Defense establishes the priority that government suppliers must work on U.S. national security projects. Credit: NASA/Michael DeMocker.

(Photo Caption: Artemis launch director Charlie Blackwell-Thompson is seen with Core Stage-2 during a June 30 visit to Michoud. After approval by NASA, work on the stage during the summer was reduced from two shifts down to one while waiting for a couple of LOX feedlines to be completed at a supplier.)

The DPAS (Defense Priorities and Allocations System) regulation establishes two priority levels, DX and DO, the IG-24-003 report said. A DX rating takes precedence over DO, is assigned to those programs of the highest national priority, and must be approved by the Secretary of Defense.

While not all NASA contracts are assigned a DPAS rating, some Artemis contracts have received the second level rating of DO, the report added. Despite having this rating, order fulfillment is delayed if a supplier receives a DX-rated order, as all work on NASA and other DO-rated contracts stops until the DX-rated contract needs are met.

The feedlines really caused us to take a step back, pause, and look at affordability, and not run really fast and hard for the last three or four months as we waited for those last two feedlines, Burroughs said. We knew of the feedline delays [in] roughly [the] July timeframe or June, we saw them sliding and then the DX rating caused further slip.

Once we got new dates from our suppliers, thats when we made the adjustment and slowed down, if you will, to save money.

(Lead image: Core Stage-2 in the final assembly area at MAF on Oct. 19. Credit: Philip Sloss for NSF.)



The post Boeing ramps up final assembly to complete Artemis II SLS Core Stage by year end appeared first on NASASpaceFlight.com .



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https://www.nasaspaceflight.com/2023/10/a-ii-core-stage/


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