By Published: Dec. 9, 2022

Artist's depiction of the Orion capsule reentering Earth's atmosphere

Artist's depiction of the Orion capsule reentering Earth's atmosphere. (Credit: NASA)

Sunday at around 10:40 a.m. MT, NASA鈥檚 Orion spacecraft will splash down in the Pacific Ocean after its several week-long journey to the moon and back. Space buffs can tune into NASA's听livestream to witness some extreme physics鈥攚hat will be the last leg of the historic Artemis 1 mission, which launched from Florida Nov. 15.

The numbers are mind-boggling: The Orion capsule will hit Earth鈥檚 atmosphere flying at speeds of almost 25,000 mph (or about 11 kilometers per second) and experience temperatures nearing 5,000 degrees Fahrenheit in the process.听

Iain Boyd is a professor in the Ann and H.J. Smead Department of Aerospace Engineering Sciences who has spent his career studying hypersonics, or vehicles that travel far faster than the speed of sound. He also leads a $15 million NASA institute called the Advanced Computational Center for Entry System Simulation (ACCESS). This effort investigates new ways to protect spacecraft as they undergo the extremes of entering atmospheres on Earth, Mars and beyond.听

He spoke about the conditions Orion can expect to face this weekend, and why the growing space tourism industry may require new kinds of spacecraft heat shields.

NASA is using a maneuver called a 鈥渟kip entry鈥 to slow down the Orion capsule. What does that mean?

Iain Boyd headshot

Iain Boyd

The alternative to a skip entry is a direct entry鈥攋ust coming straight into Earth鈥檚 atmosphere and going down. In a skip entry, you come into the atmosphere at a shallower angle, then you skip back out into space and come back in again. It's kind of like when you skip stones on a lake. It's a way of decelerating without getting into the heating right away. It also provides more flexibility on where the capsule will land.

Right away. Even with those maneuvers, Orion is going to face blistering conditions Sunday. What can we expect to happen?听

When you fly very rapidly through air or any other gas, the gas itself gets heated up. It鈥檚 like the friction when you rub your hands together. In this case, when you鈥檙e coming back from the moon at those velocities, the temperatures of the gases are higher than the surface temperature of the sun鈥攎any, many thousands of degrees.

Orion isn鈥檛 carrying any human crewmembers on this mission. But it will in the future. How will NASA keep them safe from that kind of heat?

Unlike airplanes, hypersonic vehicles, including capsules, have what's called a thermal protection system. Usually, it鈥檚 a collection of different materials that cover the outside of the vehicle to ensure that that heat is kept out.听

Artemis uses what we call an 鈥榓blating鈥 thermal protection system. This is material that, by design, disintegrates under heat and comes apart atom by atom鈥攂ut in a controlled, well-understood way. As it disintegrates, those atoms carry energy and heat away from the vehicle.听

That strategy is pretty similar to what NASA did during the Apollo era. Are scientists also exploring new ways of protecting spacecraft on reentry?

One of the highlights of the ACCESS institute is that we鈥檙e going to analyze NASA鈥檚 upcoming , which is scheduled for later this decade.听

NASA is going to fly to Mars, land a rover on the surface, scoop up some Martian dirt and rock and fly all the way back. That capsule will enter Earth's atmosphere at about 14 kilometers per second. The Orion spacecraft will be moving at around 11 kilometers per second. Fourteen kilometers per second doesn't sound like a big jump, but it turns out to be a different physics regime. We鈥檙e going to need different materials and a different kind of heat shield.听

How would those new heat shields work?

Some of the approaches that are being studied are what are called woven materials. You begin by weaving together fibers made of carbon, and then you inject material into the gaps between the fibers. It sounds low tech, but it's actually very high tech.听

The fibers themselves will still ablate. But when the chemicals that are injected in between the fibers heat up, they will break down and become gas. That gas flows from inside the heat shield to out, creating additional cooling effects

As the space tourism industry grows, we鈥檙e going to be seeing a lot more spacecraft launch from Earth鈥攁nd, hopefully, come back. What kinds of issues will that raise?

One of the key challenges for a successful space economy is going to be more efficient vehicles and more efficient heat shields. And that is going to require us to better understand all of these physical and chemical processes. Every single layer we can shave off our heat shield because we're confident that we don't need it is going to increase the efficiency of bringing stuff back from space.

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