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Пользователь Сообщение: Space architects plan 3D-printed lunar base        (Тема#71600)
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15.03.13 12:01 Ukraine #1543761
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by Amy Frearson, Dezeen

A team of London "space architects" has developed a proposal for a lunar base that would be 3D printed by spider robots using microwaves, solar energy and lunar dust.

Tomas Rousek, Katarina Eriksson and Dr. Ondrej Doule are collaborating with NASA's Jet Propulsion Laboratory on plans for a modular architectural structure at the lunar south pole. Each module would be printed using a NASA robotic system, which would produce a ceramic-like material by microwave-sintering lunar soil, also known as regolith. There would be no need for glue, as the particles would naturally bond themselves together when heated to the right temperature by the robots.

"In the future, we could build structures of entire cities on the surface of the moon by using solar energy," explains the team. "We can significantly decrease mass, costs and environmental impact if we don't need to send glue or other binding agents from Earth."

Unlike rival proposals by Foster + Partners, which involve building layers of soil up around an inflatable frame, the Sinterlab concept is based on a system of rigid modules that can be pieced together to form a structure. Inspired by the formation of bubbles found in nature, the architects have developed a process that will enable the construction of flat walls and surfaces, based on the geometric rule that neighbouring bubbles must be in equilibrium.

The concept has been developed using a Microwave Sinterator Freeform Additive Construction System (MS-FACS) and would be carried out by NASA's six-legged ATHLETE robot (pictured below). A prototype of the robot has been tested in the Arizona Desert for some of the processes it would use on the moon.

The team first started developing the concept in 2009 at the International Space University in Strasbourg, in collaboration with Richard Rieber from NASA JPL.

Foster + Partners unveiled its plans for 3D-printed lunar structures earlier this year. Meanwhile various architects are racing to be the first to build a 3D printed house while a 3D-printed car is set to hit the road in two years. See more stories about 3D printing on Dezeen.

Here's a press release from the team:

3D-printed Moon base concept SinterHab envisions an outpost baked from lunar dust

Architectural proposal of SinterHab moon base could be built by large NASA spider robots by using microwaves, solar energy and lunar dust

A microwave 3D-printed Moon base could be a sustainable solution for presence on the Lunar South Pole, the SinterHab concept shows. Space architects Tomas Rousek, Katarina Eriksson and Dr. Ondrej Doule have unveiled their vision for a lunar module which shows the potential of 3D printing technology from NASA. Modules would be constructed from lunar soil by microwave sintering and contour crafting making use of NASA JPL robotics system near the Shackleton crater.

Imagine that you took the solar energy and the dust from the ground and baked the dust using microwaves to directly construct any shape you wanted. On Earth it would sound like science fiction but on the Moon it would be feasible due to the unique properties of the lunar soil and the absence of an atmosphere. Microwave sintering creates a solid building material similar to ceramics, purely by microwave heating of the dust. Robots equipped with this technology could bake the lunar dust without any glue brought from Earth.

Due to the nano-sized iron particles in the lunar dust produced by space weathering, it is possible to heat the dust up to 1200 – 1500 0C and melt it even in a domestic microwave oven. When the lunar dust (regolith) is heated and the temperature is maintained below the melting point, particles bond together and the building blocks for the lunar habitat can be created. In the future, we could build structures of entire cities on the surface of the Moon by using solar energy. We can significantly decrease mass, costs and environmental impact if we don't need to send glue or other binding agents from Earth. Furthermore, the hardening of the surrounding surface of the base would help mitigate the hazards of contamination from lunar dust, which is highly abrasive and harmful to both astronauts and equipment.

An innovative internal membrane system of SinterHab offers up to four times bigger volume of the module than classic rigid modules at the same weight shipped from Earth. Nature provides inspiration for the inflatable structures in the form of foam bubbles. The intention of building several compartments with sintered walls led to a design based on the geometry of bubbles, where the forces of neighbouring bubbles are in equilibrium and enable the building of flat walls. It would be possible to make the modules large enough to accommodate even a green garden that recycles air and water for the lunar outpost. An architecturally integrated bioregenerative life support system does not only provide for the mere survival of the astronauts, but contributes to a higher level of habitability, enhancing the comfort and psychological well-being of the inhabitants.

The radiation shielding is provided by regolith structure, polymer layers of inflatable membrane and water tanks in critical places.

Project SinterHab was initiated at the International Space University by space architects Tomas Rousek, Katarina Eriksson and Dr. Ondrej Doule in collaboration with Richard Rieber from NASA JPL in 2009. London-based space architect Tomas Rousek, director of A-ETC.net, then carried out an internship with the NASA Habitation team at NASA JPL in Los Angeles where he worked with Scott Howe, a co-author of this 3D printing robotics system. The design of SinterHab was then presented to the scientific community in the leading aerospace journal Acta Astronautica in 2012. Scientists from NASA JPL have used SinterHab as an example in proposal for funding the development of this microwave sintering technology. Sinterhab 2.0 is currently being developed in international collaboration.

The SinterHab construction method is based on the MS-FACS. Scientists at NASA JPL have proposed the Microwave Sinterator Freeform Additive Construction System (MS-FACS), a large six-legged multi-purpose robot called ATHLETE holding microwave printer head that would create walls and domes. The lunar dust would be excavated and manipulated by Chariot rover in bulldozer configuration and then fed to printing head of ATHLETE. This would cover inflated membranes made of multiple layers of Kevlar, Mylar and other materials. The prototype of the ATHLETE robot has been tested in Arizona Desert for various tasks, such as moving habitats and using different tools.

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