which is 200 times stronger than steel. this is the model we are working on. shown here as a sheet or a powder, graphene also reduces the need for bulky insulation, with space temperatures ranging from a sunny 120 degrees to a cool i70. on a single layer of graphene around the structure can dissipate the heat from hot to cold side. astronauts can have more space within the habitat, especially when they are living there for months or years, they need as much space as they can get. and you only need something one atom to get those benefits? we only need one atom. it s a magic material! many models have been 3d printed in plastic, but a large scale model is being woven out of graphene coated carbon fibre. this is a 3k carbon fibre. so, it s very thin, as you can see. it s really kind of precise, it s really kind of fine movements. this side will be very weak,
it s a magic material! many models have been 3d printed in plastic, but a large scale model is being woven out of graphene coated carbon fibre. this is a 3k carbon fibre. so, it s very thin, as you can see. it is really kind of precise, it s really kind of fine movements. this side will be very weak, so we can put many different directions of fibre. and so, that increases the strength of the final material? that s correct. this collaborative robot is designed to improve efficiency and safety. ai also identifies faults that would become dangers in the high pressure and temperatures of space. the flexible material is then set at around 170 degrees. so, you re just cooking your own space habitat? exactly! in true blue peterfashion, here s a scale model we made earlier. the full size is about 6 metres wide by 12 metres high. while vivek is working
so we are using graphene, which is 200 times stronger than steel. this is the model we are working on. shown here as a sheet or a powder, graphene also reduces the need for bulky insulation, with space temperatures ranging from sunny 120 degrees to a cool 170. on a single layer of graphene around the structure can dissipate the heat from hot to cold side. astronauts can have more space within the habitat especially when they are living there for months or years, they need as much space as they can get. and you only need something one atom to get those benefits? we only need one atom. it s a magic material. many models have been 3d printed in plastic, but a large scale model is being woven out of graphene coated carbon fibre. this is a 3k carbon fibre, it s very thin as you can see. it is really kind of
astronauts can have more space within the habitat, wspecially when they are living there for months or years, they need as much space as they can get. and you only need something one atom to get those benefits? we only need one atom. it s a magic material! many models have been 3d printed in plastic, but a large scale model is being woven out of graphene coated carbon fibre. this is a 3k carbon fibre. so, it s very thin, as you can see. it is really kind of precise, it s really kind of fine movements. this side will be very weak, so we can put many different directions of fibre. and so, that increases the strength of the final material? that s correct. this collaborative robot is designed to improve efficiency and safety. ai also identifies faults that would become dangers in the high pressure and temperatures of space. the flexible material is then set at around 170 degrees. so, you re just cooking your own space habitat? exactly! in true blue peterfashion,
from hot to cold side. astronauts can have more space within the habitat. especially when they are living there for months or years, they need as much space as they can get. and you only need something one atom to get those benefits? we only need one atom. it s a magic material. many models have been 3d printed in plastic but a large scale model is being woven out of graphene coated carbon fibre. this is a 3k carbon fibre. so, it s very thin, as you can see. it is really kind of precise, fine movements. this side will be very weak, so we can put many different directions of fibre. and so, that increases the strength of the final material? that s correct. this collaborative robot is designed to improve efficiency and safety. ai also identifies faults that would become dangers in the high pressure and temperatures of space. the flexible material is then set at around 170 degrees. so, you are just cooking your own space habitat?