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European Space Agency's Solar Orbiter To Be Coated With Prehistoric Cave Paint (PHOTOS)

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ESA’s next generation Sun explorer, Solar Orbiter will be launched in 2017. It will investigate the connections and the coupling between the Sun and the heliosphere, a huge bubble in space created by the solar wind. The solar wind can cause auroras and disrupt satellite-based communication. | ESA/AOES

A European spacecraft set to launch toward the sun in 2017 will be protected by a paint once used in prehistoric cave art.

The European Space Agency's Solar Orbiter probe will be coated in a substance derived from burnt bone charcoal — a type of pigment once used by early humans to create art on the insides of caves in France. The robust substance traditionally made from burned bones should help protect the Solar Orbiter when it flies closer to the sun than any spacecraft before it.

The probe will fly about 26 million miles (42 million kilometers) from the sun, a bit more than a quarter of the distance from Earth to the star. The Earth is about 93 million miles (150 million km) from the sun on average. Mercury, the closest planet to the sun, approaches within 28.5 million miles (48.8 million km) at its closest point to the star. [The Sun's Wrath: The Worst Solar Storms in History]

solar orbiterFront view of the Solar Orbiter spacecraft, highlighting its protective heatshield. The shield has feed-throughs with doors for the mission's remote-sensing instruments to observe the sun.

While observing the sun from space, the Solar Orbiter will have to face temperatures up to 968 degrees Fahrenheit (520 degrees Celsius), ESA officials said. Scientists working with the spacecraft realized that they needed to re-work the heat shield when they ruled out their initial choice to use a carbon fiber fabric in 2010, they added.

'We soon identified a problem with the heat shield requirements," Andrew Norman, a materials technology specialist, said in an ESA statement. "To go on absorbing sunlight, then convert it into infrared to radiate back out to space, its surface material needs to maintain constant 'thermo-optical properties' — keep the same color despite years of exposure to extreme ultraviolet radiation.

"At the same time, the shield cannot shed material or outgas vapor, because of the risk of contaminating Solar Orbiter’s highly sensitive instruments," Norman added. "And it has to avoid any build-up of static charge in the solar wind because that might threaten a disruptive or even destructive discharge."

ESA officials found Enbio, a company that produces Solar Black, a material made from burnt bone charcoal, to help them solve the heat shield problems. The "black calcium phosphate processed from burnt bone charcoal" will be applied to the outer sheet of titanium on the orbiter's layered heat shield, ESA officials said.

solar orbiterThe Enbio team wield a blow torch to demonstrate the heat absorption of Solar Black CoBlast-treated titanium foil. A similar coating will form the outermost layer of the protective heatshield for ESA's 2017 Solar Orbiter mission. Pictured at Enbio’s manufacturing facility at the NovaUCD centre on the University College Dublin campus are (l-r) Nigel Cobbe, vice-president, business development, Enbio; John O’Donoghue, CEO, Enbio; and Dr James Carton, industrial surfaces programme manager, Enbio.

"The big advantage is that the new layer ends up bonded, rather than only painted or stuck on," John O'Donoghue, Managing Director of Enbio, said of the Solar Black material in a statement. "It effectively becomes part of the metal — when you handle metal you never worry about its surface coming off in your hands."

ESA engineers are planning to test Solar Black-treated titanium to see how it will hold up in a vacuum chamber that will simulate some of the environments the spacecraft could encounter while observing the sun.

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