November 15, 2024

Flight rationale — NASA still doesnt understand root cause of Orion heat shield issue When we stitch it all together, well either have flight rationale or we wont.”

Stephen Clark – Apr 27, 2024 12:22 am UTC Enlarge / NASA’s Orion spacecraft descends toward the Pacific Ocean on December 11, 2021, at the end of the Artemis I mission.NASA reader comments 154

NASA officials declared the Artemis I mission successful in late 2021, and it’s hard to argue with that assessment. The Space Launch System rocket and Orion spacecraft performed nearly flawlessly on an unpiloted flight that took it around the Moon and back to Earth, setting the stage for the Artemis II, the program’s first crew mission.

But one of the things engineers saw on Artemis I that didn’t quite match expectations was an issue with the Orion spacecraft’s heat shield. As the capsule streaked back into Earth’s atmosphere at the end of the mission, the heat shield ablated, or burned off, in a different manner than predicted by computer models.

More of the charred material than expected came off the heat shield during the Artemis I reentry, and the way it came off was somewhat uneven, NASA officials said. Orion’s heat shield is made of a material called Avcoat, which is designed to burn off as the spacecraft plunges into the atmosphere at 25,000 mph (40,000 km per hour). Coming back from the Moon, Orion encountered temperatures up to 5,000 Fahrenheit (2,760 Celsius), hotter than a spacecraft sees when it reenters the atmosphere from low-Earth orbit.

Despite heat shield issue, the Orion spacecraft safely splashed down in the Pacific Ocean. Engineers discovered the uneven charring during post-flight inspections. No answers yet

AmitKshatriya, who oversees development for the Artemis missions in NASA’s exploration division, said Friday that the agency is still looking for the root cause of the heat shield issue. Managers want to be sure they understand the cause before proceeding with Artemis II, which will send astronauts Reid Wiseman, Victor Glover, Christina Koch, and Jeremy Hansen on a 10-day flight around the far side of the Moon.

This will be the first time humans fly near the Moon since the last Apollo mission in 1972. In January, NASA announced a delay in the launch of Artemis II from late 2024 until September 2025, largely due to the unresolved investigation into the heat shield issue.

“We are still in the middle of our investigation on the performance of the heat shield from Artemis I,” Kshatriya said Friday in a meeting with a committee of the NASA Advisory Council. Advertisement

Engineers have performed sub-scale heat shield tests in wind tunnels and arc jet facilities to better understand what led to the uneven charring on Artemis I. “Were getting close to the final answer in terms of that cause,” Kshatriya said.

NASA officials previously said it is unlikely they will need to make changes to the heat shield already installed on the Orion spacecraft for Artemis II, but haven’t ruled it out. A redesign or modifications to the Orion heat shield on Artemis II would probably delay the mission by at least a year.

Instead, engineers are analyzing all of the possible trajectories the Orion spacecraft could fly when it reenters the atmosphere at the end of the Artemis II mission. On Artemis I, Orion flew a skip reentry profile, where it dipped into the atmosphere, skipped back into space, and then made a final descent into the atmosphere, sort of like a rock skipping across a pond. This profile allows Orion to make more precise splashdowns near recovery teams in the Pacific Ocean and reduces g-forces on the spacecraft and the crew riding inside. It also splits up the heat load on the spacecraft into two phases.

The Apollo missions flew a direct reentry profile. There is also a reentry mode available called a ballistic entry, in which the spacecraft would fly through the atmosphere unguided. Enlarge / Ground teams at NASA’s Kennedy Space Center in Florida moved the Orion spacecraft for the Artemis II mission into an altitude chamber earlier this month. NASA/Amanda Stevenson

The charred material began flying off the heat shield in the first phase of the skip reentry. Engineers are looking at how the skip reentry profile affected the performance of the Orion heat shield. NASA wants to understand how the Orion heat shield would perform during each of the possible reentry trajectories for Artemis II.

“What we have the analysis teams off doing is saying, ‘OK, independent of what the constraints are going to be, what can we tolerate?” Kshatriyasaid.

Once officials understand the cause of the heat shield charring, engineers will determine what kind of trajectory Artemis II needs to fly on reentry to minimize risk to the crew. Then, managers will look at building what NASA calls flight rationale. Essentially, this is a process of convincing themselves the spacecraft is safe to fly. Advertisement

“When we stitch it all together, well either have flight rationale or we wont,” Kshatriya said.

Assuming NASA approves the flight rationale for Artemis II, there will be additional discussions about how to ensure Orion heat shields are safe to fly on downstream Artemis missions, which will have higher-speed reentry profiles as astronauts return from landings on the Moon.

In the meantime, preparations on the Orion spacecraft for Artemis II continue at NASA’s Kennedy Space Center in Florida. The crew and service modules for Artemis II were mated together earlier this year, and the entire Orion spacecraft is now inside a vacuum chamber for environmental testing.

When this testing is finished, ground teams in Florida will address a couple of other issues with the Orion spacecraft.

One of these issues involves digital motor controllers that drive the action of valves within the spacecraft’s life support system. NASA discovered a design flaw in the controllers to be installed on the next Orion capsule, for the Artemis III mission. These controllers were already in place on the Orion spacecraft for Artemis II, and must be replaced with fresh units. The new controllers have design fixes, and technicians will swap them out once Orion is out of the test chamber.

The other issue is with batteries on the Orion crew module, which could be susceptible to sudden “shock” loads in the event of a launch abort, when powerful rockets would fire to pull the capsule and its crew away from the Space Launch System. “During those cases, the mode was high enough that it induced an oscillation in the battery stack, which caused some of the connectors in the battery to lose connectivity,” Kshatriya said.

Engineers could either replace batteries on the Artemis II spacecraft with a set originally slated for the Artemis III mission, or they could repair the batteries already installed on Orion for Artemis II, according to Kshatriya.

This is a must-work system in an abort case, so we need to fix it, and thats what were doing,” he said.

In terms of readiness, components for the SLS rocket set to fly on Artemis II appear to be ahead of the Orion spacecraft. The core stage for Artemis II is fully integrated, with all four RS-25 engines installed. NASA is holding the core stage at its factory in Louisiana until ground teams need it for stacking inside the Vehicle Assembly Building (VAB) at Kennedy.

All segments of the SLS rocket’s solid rocket boosters are at Kennedy, but officials won’t give the go-ahead for stacking the boosters in the assembly building until they know when Orion will be ready. There are safety limits on how long the solid rocket boosters can be stacked before they launch.

“We’d like to wait until we know that the spacecraft is going to be ready to deliver on time to support the launch,” Kshatriya said.

The mobile launch tower for the SLS rocket is undergoing tests at Launch Complex 39B, and should roll back to the VAB in Juneto be ready for stacking, he said.

This story was updated April 27 with additionaldetails about the status of theOrion spacecraft and Space Launch System rocket for Artemis II. reader comments 154 Stephen Clark Stephen Clark is a space reporter at Ars Technica, covering private space companies and the worlds space agencies. Stephen writes about the nexus of technology, science, policy, and business on and off the planet. Advertisement Channel Ars Technica ← Previous story Next story → Related Stories Today on Ars