The & # 39; moonstones & # 39; made of moon dust that could build the first house of mankind on another planet



It is the stones that could build the first house of mankind on another planet.

Officials from the European Space Agency have the newest "moon bricks & # 39; revealed that could soon be used to build a lunar habitat.

They say that the stones are the starting point for building a permanent outpost of the moon and breaking the dependence of explorers on the earth's offer.

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This 1.5 tonne building block was produced as a demonstration of 3D printing techniques with the aid of moon round. The design is based on a hollow, closed cell structure inspired by bird bones to give a good combination of strength and weight

This 1.5 tonne building block was produced as a demonstration of 3D printing techniques with the aid of moon round. The design is based on a hollow, closed cell structure inspired by bird bones to give a good combination of strength and weight

This 1.5 tonne building block was produced as a demonstration of 3D printing techniques with the aid of moon round. The design is based on a hollow, closed cell structure inspired by bird bones to give a good combination of strength and weight

HOW DO YOU MAKE A MOONBAG?

The surface of the moon is covered with gray, fine, rough dust.

Lunar soil is a basaltic material that consists of silicates, a common characteristic of planetary bodies with volcanism.

ESA has experimented with a similar material on earth.

The material is first compacted in shape and then heated with an oven to "bake" the brick & # 39 ;.

The resulting stones have the equivalent strength of plaster and undergo a detailed mechanical examination. ESA said.

"Moonstones are made from dust", says Aidan Cowley, ESA's advisor with a wealth of experience in dealing with moon ground.

& # 39; You can build solid blocks to build roads and launch pads, or habitats that protect your astronauts from the harsh lunar environment. & # 39;

The surface of the moon is covered with gray, fine, rough dust.

This powdery soil is everywhere – an indigenous source that could become the ideal material for masonry, says ESA, and has already conducted experiments to crush, burn and compress.

They say that the stones in reality resemble those on earth.

Lunar soil is a basaltic material that consists of silicates, a common characteristic of planetary bodies with volcanism.

The moon and earth share a common geological history, and it is not difficult to find material similar to that of the moon in the remains of lava flows & # 39 ;, explains Aidan.

Some 45 million years ago, eruptions took place in a region around Cologne, in Germany.

Research from the nearby European Astronaut Center (EAC) showed that the volcanic powder in the area is in line with what is moon dust.

The moon substitute & # 39; made in Europe & # 39; already has a name: EAC-1.

The spaceship EAC initiative works with EAC-1 to prepare technologies and concepts for future exploration of the moon.

& # 39; One of the great things about the lunar floor is that 40% of it consists of oxygen, Aidan adds.

Lunar soil is a basaltic material that consists of silicates, a common characteristic of planetary bodies with volcanism.

Lunar soil is a basaltic material that consists of silicates, a common characteristic of planetary bodies with volcanism.

Lunar soil is a basaltic material that consists of silicates, a common characteristic of planetary bodies with volcanism.

One Spaceship EAC project investigates how the oxygen can be cracked and uses it to help astronauts extend their stay on the moon.

Bombarded with constant radiation, moon dust is electrically charged.

This allows particles to come off the surface. Erin Tranfield, member of the ESA's current dust control team, emphasizes that we still have to fully understand its electrostatic nature.

Scientists do not yet know the chemical charge, nor the consequences for construction purposes.

In his attempt to recreate the behavior of moon dust in a radiation environment, Erin ground the surface of moon simulants.

She managed to activate the particles, but she knew the properties of the surface.

& # 39; This gives us another reason to go back to the moon.

We need impeccable samples from the surface that is exposed to the radiation environment, Erin says.

EUROPEAN MOON BASIC PLANS OPENED

Last year the head of the ESA worked out plans to build a village on the moon.

& # 39; The future of space travel needs a new vision & # 39 ;, said Jan Woerner.

The concept is a base for exploring the moon by humans and robots, which would act as a stopover for spacecraft, and a village & # 39; be with mining and even tourism.

& # 39; The future of space travel needs a new vision.

"At the moment we have the space station as a common international project, but it will not last forever," Woerner said.

Multi-dome moon base that is built, based on the 3D printing concept. Once assembled, the inflated domes are covered with a layer of 3D printed lunar regolith by robots to help protect the occupants from space radiation and micrometeoroids._constructed.jpg

Multi-dome moon base that is built, based on the 3D printing concept. Once assembled, the inflated domes are covered with a layer of 3D printed lunar regolith by robots to help protect the occupants from space radiation and micrometeoroids._constructed.jpg

Multi-dome moon base that is built, based on the 3D printing concept. Once assembled, the inflated domes are covered with a layer of 3D printed lunar regolith by robots to help protect the occupants from space radiation and micrometeoroids._constructed.jpg

& # 39; When I say Moon Village, it does not just mean houses, a church, a town hall, and so on. No, that would be misleading.

& # 39; My idea is only about the core of the concept of a village: people who work and live together in the same place.

& # 39; And this place would be on the moon.

In the Moon Village, we want to combine the capabilities of different spacefaring countries with the help of robots and astronauts.

For the 3D-printed concept of ESA's moon base, Foster + Partners designed a weight-bearing catenary & # 39; dome design with a cellular structured wall to protect against micrometeoroids and space radiation, with a pressurized inflatable to protect astronauts

For the 3D-printed concept of ESA's moon base, Foster + Partners designed a weight-bearing catenary & # 39; dome design with a cellular structured wall to protect against micrometeoroids and space radiation, with a pressurized inflatable to protect astronauts

For the 3D-printed concept of ESA's moon base, Foster + Partners designed a weight-bearing catenary & # 39; dome design with a cellular structured wall to protect against micrometeoroids and space radiation, with a pressurized inflatable to protect astronauts

& # 39; Participants can work in different areas, maybe they will be pure science and maybe there will be things like mining or tourism. & # 39;

Woerner said the village could even help the man to go to Mars.

The Moon Village would also act as a & # 39; pit stop & # 39; for the further exploration of the universe & # 39 ;, he said.

• Esa also wants to fly to Mars.

& # 39; For more than a decade we have been a very successful spacecraft in orbit around the earth. And now, with ExoMars, two unmanned missions focus on the orbit of Mars and the surface.

Yes, the Americans want to send astronauts to Mars one day, but today's technology is not yet prepared for this trip.

For example, we need to develop countermeasures against the cosmic rays that endanger people's health when traveling long hours. And we have to learn how we can endure longer periods in space, not just in a low job like on the space station.

Lunar-based structures can be built by robots sent for human astronauts. Experts say that 3D printing technology can currently build a complete building in about a week

& # 39; Here comes our moon around the corner – it's the perfect step up to Mars. & # 39;

For this biologist who dreams of being the first woman on the moon, a few sealed grams of moon dust would be sufficient.

Setting up a permanent village on the moon is the first step towards exploring Mars. The European Space Agency has previously said that plans to reach and colonize the Red Planet will become faster.

At an annual meeting of 4,000 experts in the global space area in Adelaide, the ESA said that the moon would be the right place to be & # 39; was because people are expanding economic activities outside of a job with a low job, even though Mars is the ultimate destination & # 39; kept on.

"We have been living on a space station for 17 years in a low earth orbit and we are on our journey to Mars for the first human mission," said Piero Messina from ESA to AFP at the congress.

In between we believe that there is a possibility to create a permanent … permanent presence on the surface of the moon. & # 39;


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