When Neil Armstrong set foot on the Moon's surface in 1969, he was wearing a space suit developed by the US company ILC Dover, which is based in Delaware.
When Neil Armstrong set foot on the Moon's surface in 1969, he was wearing a space suit developed by the US company ILC Dover, which is based in Delaware.
Space suit technology has continued to evolve over the decades since, with ILC Dover at the forefront.
Space suit technology has continued to evolve over the decades since, with ILC Dover at the forefront.
The suit below is designed for use by astronauts at the International Space Station.
The suit below is designed for use by astronauts at the International Space Station.
It weighs 280lb (127kg), and on Earth astronauts struggle to support the weight of the suit on their own.
It weighs 280lb (127kg), and on Earth astronauts struggle to support the weight of the suit on their own.
A helmet made from polycarbonate sits on the top of the pressurised suit. A reflective visor can be pulled down to protect astronauts from the Sun’s rays. A light and camera can also be added.
A helmet made from polycarbonate sits on the top of the pressurised suit. A reflective visor can be pulled down to protect astronauts from the Sun’s rays. A light and camera can also be added.
Display control module
Display control module
This is the suit’s dashboard. Astronauts wear a mirror on their left wrist, allowing them to read the panel whilst adjusting the dials with their right hand. The dial on the right changes the temperature of the liquid cooling suit worn underneath the outer suit.
This is the suit’s dashboard. Astronauts wear a mirror on their left wrist, allowing them to read the panel whilst adjusting the dials with their right hand. The dial on the right changes the temperature of the liquid cooling suit worn underneath the outer suit.
Glove connector
Glove connector
This connector is designed so that gloves cannot be accidentally released as a significant loss of pressure in the suit would be catastrophic.
This connector is designed so that gloves cannot be accidentally released as a significant loss of pressure in the suit would be catastrophic.
Phase VI glove
Phase VI glove
By pulling the tag marked ‘on’ or ‘off’, astronauts can apply heat to the end of their fingertips. This is necessary because in the shadow of the Earth objects can reach temperatures as low as -129C (-200F).
By pulling the tag marked ‘on’ or ‘off’, astronauts can apply heat to the end of their fingertips. This is necessary because in the shadow of the Earth objects can reach temperatures as low as -129C (-200F).
But because of the weightlessness experienced in orbit, it can be comfortably used for space walks.
But because of the weightlessness experienced in orbit, it can be comfortably used for space walks.
It performs a number of functions.
It performs a number of functions.
One is to protect astronauts from extreme temperatures. In Earth's orbit, a surface in the shade can get as low as -129C (-200F) and, in sunlight, as high as 121C (250F).
One is to protect astronauts from extreme temperatures. In Earth's orbit, a surface in the shade can get as low as -129C (-200F) and, in sunlight, as high as 121C (250F).
Space suits provide a supply of oxygen, but they also replace the pressure experienced at low altitude.
Space suits provide a supply of oxygen, but they also replace the pressure experienced at low altitude.
Above 63,000ft (19km), exposed human tissue swells and bodily fluids like mouth saliva and water in the eyes start to boil.
Above 63,000ft (19km), exposed human tissue swells and bodily fluids like mouth saliva and water in the eyes start to boil.
Suits like the one above are pressurised to 4.3 pounds per square inch (30 kilopascals).
Suits like the one above are pressurised to 4.3 pounds per square inch (30 kilopascals).
Bill Ayrey, a tester for ILC Dover, says the company is now working on advanced suit designs for Nasa, using new materials.
Bill Ayrey, a tester for ILC Dover, says the company is now working on advanced suit designs for Nasa, using new materials.
He said that should Nasa ever try to send astronauts to Mars, the suit requirements would be completely different from anything they had designed previously.
He said that should Nasa ever try to send astronauts to Mars, the suit requirements would be completely different from anything they had designed previously.
