![](\"http:\/\/www.esa.int\/var\/esa\/storage\/images\/esa_multimedia\/videos\/2016\/10\/tommaso_ghidini_materials_make_the_space_mission\/16209047-1-eng-GB\/Tommaso_Ghidini_Materials_make_the_space_mission_small.png\")
<\/p>\n\t\t\t\t\t<\/p>\n
\nSpace is a not a single environment, but many: so the manufacturing materials and processes used for each new space mission must be chosen with great care. Tommaso Ghidini, Head of ESA\u2019s Materials Technology section, explains how this process works in practice, using the example of Europe\u2019s Solar Orbiter mission, which will venture within 42 million km of the Sun.\n<\/p>\n
\nThe spacecraft\u2019s main body takes cover behind a protective heat shield. But to go on working it will have to keep the same colour despite years of exposure to extreme ultraviolet radiation. At the same time, the shield surface cannot crack, shed material or release vapour, because this might contaminate Solar Orbiter\u2019s highly-sensitive instruments. Any build-up of static was also unacceptable.\n<\/p>\n
\nExisting surfaces and coatings couldn\u2019t do this; it was time to turn to a solution outside the space industry. ESA\u2019s materials experts reached out to an Irish company called ENBIO<\/a> focused on coating titanium-made medical implants with carbon black \u2013 once used for ancient cave painting. ENBIO and ESA worked together to make their technology space-ready.\n<\/p>\n \nTo learn more, read his interview here <\/a><\/p>\n","protected":false},"excerpt":{"rendered":" \nSpace is a not a single environment, but many: so the manufacturing materials and processes used for each new space mission must be chosen with great care. Tommaso Ghidini, Head of ESA’s Materials Technology section, explains how this process works in practice, using the example of Europe’s Solar Orbiter mission, which will venture within 42 million km of the Sun.\n<\/p>\n \nThe spacecraft’s main body takes cover behind a protective heat shield. But to go on working it will have to keep the same colour despite years of exposure to extreme ultraviolet radiation. At the same time, the shield surface cannot crack, shed material or release vapour, because this might contaminate Solar Orbiter’s highly-sensitive instruments. Any build-up of static was also unacceptable.\n<\/p>\n \nExisting surfaces and coatings couldn’t do this; it was time to turn to a solution outside the space industry. ESA’s materials experts reached out to an Irish company called ENBIO<\/a> focused on coating titanium-made medical implants with carbon black – once used for ancient cave painting. ENBIO and ESA worked together to make their technology space-ready.\n<\/p>\n<\/p>\n