Micro-components for space

Materials and Processes

Assembling a satellite is no ordinary task, and it is one that requires far from ordinary building materials. The various parts making it up will have to endure an environment like nothing on Earth combining high vacuum, extreme temperatures and aggressive radiation, and engineers need to be certain of which materials they can rely on when designing for such a hostile environment.

What is the Materials and Processes domain?

Materials and Processes domain activities include rigorous testing to assess how individual materials respond to harmful factors of the space environment. Detailed space simulations are carried out and the physical characteristics of materials and parts are precisely characterised. Lists are maintained of approved materials together with details of their precise physical and chemical properties, to be made available to mission teams.

Another element of the work done is failure analysis. Spacecraft components undergo rigorous testing long in advance of their mission launch. If and when a failure does occur the aim is to understand why it took place and find ways of preventing it next time around. A wide range of equipment is available for this task including scanning electron microscopes and acoustic microscopes for non-destructive examinations.

On the Processes side, preferred manufacturing and assembly methods are established based on continual research and testing to minimise the chance of material or component failure, these procedures going on to form ESA and European production standards.

Soldering remains a vital skill within satellite assembly, and regular courses are run in the subject for space industry firms by a European network of soldering schools. Companies are also evaluated on their techniques of circuit board engineering and surface mounting of components. Once qualified, a company is then added to a recommended list of ESA suppliers.

ESA also evaluates other manufacturing methods including clean room procedures with the aim of reducing contamination on a spacecraft to an absolute minimum. Air filters limit airborne dust but human workers are the single largest source of contamination due to shedding of hair and skin, so clean room protocols must include rigorous training.

Even then some particulates will still get through, so the spacecraft must be cleaned without inadvertently contributing to contamination. Tests on spacecraft cleanliness are carried out even up to the verge of launch from Kourou and other sites.

Why is Materials and Processes important?

During its life, a satellite is confronted to many aggressive environments including the ones on ground like corrosion and ageing.

During launch a satellite is exposed to high levels of acoustic noise, vibration and transitory G forces, potentially causing stress corrosion in susceptible alloys or composites. Pyrotechnic shocks are also triggered as secured satellite elements such as antennas are deployed once in orbit.

Once in orbit the single most violent part of a satellite's career is over and done with, but the space environment is far from welcoming. A satellite in low-Earth orbit passes from day into night many times a day. This 'thermal cycling' triggers abrupt temperature changes with can induce thermal stress, vibration and cracking.

Ultraviolet radiation in unfiltered sunlight as well as atomic oxygen particles may crack susceptible plastics and coatings. Optical surfaces and integrated circuits have to resist the onslaught of ionised radiation and charged particles as well as UV, while prolonged vacuum exposure can lead to materials outgassing – the same phenomenon that causes new car interiors to smell – threatening harmful contamination on delicate instrument surfaces as these unwanted substances condense.

But the deep knowledge of materials and manufacturing applied by the Materials and Processes domain offers means of limiting a spacecraft's vulnerability to these malign effects.

Last update: 4 January 2016

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