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SPACE EXPLORATION

A Mars landing ‘made in Spain’

A Spanish-designed shock absorber and heat shield will be key to a European mission to the Red Planet

Nuño Domínguez
The ExoMars mission takes off on March 14.
The ExoMars mission takes off on March 14.ESA

October 2016, the atmosphere above Mars: ExoMars, a joint European and Russian astrobiology project, has just reached its destination and is preparing for the most delicate part of the mission.

The descent module Schiaparelli enters the nearly non-existent Martian atmosphere at a speed of 21,000 km/h. The friction generates temperatures that would be hot enough to fry the spacecraft if it were not equipped with a heat shield able to withstand 1,750ºC. This shell also serves to slow the craft down.

The ExoMars mission, which is costing €1.3 billion, required the development of new technologies to which seven Spanish companies have contributed

Three minutes later, an enormous 12-meter-wide parachute opens. When the lander is at an altitude of around 1,200 meters, its retro-propellers kick in and slow it down almost to a stop. As the unit hovers over the Martian surface, the propellers turn off and the lander drops suddenly from two meters above ground level.

And this is where the hard part begins.

To ensure that the module does not land face down, rendering it useless, designers had to come up with a structure able to absorb the shock of the impact against the hard, rocky soil of Mars.

“The inside of the material has a honeycomb-like structure; when it receives the impact, it crushes, which is key because that way we prevent the module from bouncing off the ground, being knocked over or thrown off course,” says Eduardo Urgoiti, air and space project director for Sener, the Spanish company that developed this and other components for ExoMars.

A European Space Agency rendition of the ExoMars rover.
A European Space Agency rendition of the ExoMars rover.ESA

In order to create the system, it was first necessary to recreate the pressure and atmosphere found on Mars in a vacuum chamber that also contained rocks and sand similar to those on the Red Planet. The impact was rehearsed several times until the experiment reached a degree of certainty acceptable to the engineers.

“There is a 99% probability that everything will go well,” explains Urgoiti.

The heat shield, made of carbon fiber, was also partly designed and made in Spain, this time by Airbus. The aerospace company has developed a new production system exclusively for this component, which is crucial because “any deformation would make the lander go off course during its descent,” explains Carlos Samartín, head of composite materials at Airbus.

The ExoMars mission, which is costing €1.3 billion, required the development of new technologies to which seven Spanish companies have contributed.

The Schiaparelli will have a short life – two to four Martian days – because its main goal is to test the landing technology. Meanwhile, ExoMars’ second module, the Trace Gas Orbiter (TGO), will map methane sources on the planet.

This will be the first mission able to find the sources of methane and the mechanisms by which it seeps out

Miguel Ángel López, Astrophysics Institute of Andalusia

“It will take a year to reach the final orbit,” says Miguel Ángel López, a researcher at the Astrophysics Institute of Andalusia (IAA). He and other scientists at the center helped design and develop all the electronics in the Nomad gas detector, one of the four instruments aboard the TGO.

Two missions – one in 2004 and another 2014 – have detected methane sources on Mars. The discovery came as a surprise, as nobody expected to find a gas that, on Earth at least, is nearly always associated with the presence of life.

“This will be the first mission able to find the sources of methane and the mechanisms by which it seeps out,” explains López.

The mission has suffered several major setbacks, such as the US decision to pull out, although Russia has since joined the project, allowing the European Space Agency to carry on with the plans. López says Spanish contributors to the project have also experienced problems of their own, as funding for the IAA team has been frozen since 2012.

English version by Susana Urra.

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