LiveInMongol

Our target is to design and print innovative models

We aim to help the astronaut by providing a database of 3D
models to make the use of 3D printer easier

Better technology means better life

We aim to improve our design so the models can be modified into
a technology that can eventually bring positive changes in the Earth's lifestyle as well.

Live In Mongol

We are a group of people who have always been enthusiastic about the notion of being able to live in outer space. The stories of astronauts who spent almost a year in space-stations have been an inspiration and guidance for us in this particular challenge. We learnt from their expeditions and tried to implement the findings into our solution. Our target is to design a 3D database for an astronaut who can use the models to print his necessary tools, furniture and equipment for his year-long mission in Mars. The feasibility of the models have been tested by printing. With some modifications, we hope to develop technologies that will enable successful interplanetary human settlements in Mars. The eco-sustainable life support systems and habitat infrastructure technologies can also improve the lifestyle in earth

Models:

Multi-Purpose Tools

The Multi-Purpose work stations serves as a desk with storage facilities. It is printed by a 3D printer in our own laboratory using a 3D printer of model Prusa i3 MK3. We have used ABS- Acrylonitrile-Butadiene-Styrene as the material.

The Multi-Purpose bench or seete can work as a setting arrangement or stool in laboratory or bedroom. The chambers below can be used to store equipments. It is printed by a 3D printer in our own laboratory using a 3D printer of Ultimaker 3 Extended. For materials we have used PLA- Polylactic Acid

This is a multipurpose bed, when assembled. Seperately they can be used as a single sofa or stools. It is printed by a 3D printer in our own laboratory using a 3D printer of model Prusa i3 MK3. We have used ABS- Acrylonitrile-Butadiene-Styrene as the material.

Precision tools are meant to boost precision or accuracy while machining products. The technology is used for manufacturing superior quality and highly accurate industrial automation equipment.It is printed by a 3D printer in our own laboratory using a 3D printer of Ultimaker 3 Extended. For materials we have used PLA- Polylactic Acid

The two-in-one fork is specially designed for this mission, this can be used as a cutlery as well as the back of thr fork can be used as a Screw System. This keeps the production cost minimized while making it more effecient for the astronaut to use.

This is an artificial handed printed from the 3D printer of our laboratory. This shows, not only 3D printing technology can be used to make tools and furniture, but also it can be used in medical purpose , to help serve disabled astronaut if necessary.

This Rover-Wheel is designed with a protective sheild over it. The sheild is light enough to not reduce the speed of the rover but also it's stong enough to remove the small peebles or stones with sharp edges that mostly causes the damage to the rover wheel. The wheel is printed in our laboratory using a 3D printed model of Prusa i3 MK3, using ABS- Acrylonitrile-Butadiene-Styrene as the materials.