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 with governments and businesses to get his graphene pod into space in the next six years, other labs are looking at building homes on the surface of lunar landscapes. transporting material from earth to the moon and mars is very expensive, so, really, what we want to do is utilise as much resources in situ as possible.
while vivek is working with governments to get his graphene pod into space in the next six years, other labs are looking at building homes on the surface of lunar landscapes. transporting material from earth to the moon and mars is very expensive, so we want to do is utilise as much resources in situ as possible. aled s already made bricks with binders like egg albumen, chickpea juice and cow blood, but the right glue has to be freely available in space. you imagine, like, cows floating in space, it sjust going to be a nightmare. so human blood has been used in these experiments. in some ways it seems, you know, quite feasible, but it would probably also damage the health of the astronaut. that one says, urea on it. is that what i think it is? 0bviously wee going to be something we will be producing in abundance. of course. actually when we added urea, it made the materials up to three times stronger.
with governments and businesses to get his graphene pod into space in the next six years, other labs are looking at building homes on the surface of lunar landscapes. transporting material from earth to the moon and mars is very expensive, so, really, what we want to do is utilise as much resources in situ as possible. aled s already made bricks with binders like egg albumen, chickpea juice and cow blood, but the right glue has to be freely available in space. you imagine, like, cows floating in, like, space. it s just going to be a nightmare. so, human blood has been used in these experiments. in some ways, it seems, you know, quite feasible, but it would probably also damage the health of the astronaut. that one says urea on it. now, is that.is that what i think it is? 0bviously, wee is something we are going to be producing in abundance. of course! actually, when we added urea, it made the materials up to three times stronger.
exactly! in true blue peterfashion, here s a scale model we made earlier. the full size is about six metres wide by 12 metres high. while vivek is working with governments to get his graphene pod into space in the next six years, other labs are looking at building homes on the surface of lunar landscapes. transporting material from earth to the moon and mars is very expensive, so what we want to do is utilise as much resources in situ as possible. aled s already made bricks with binders like egg albumen, chickpea juice and cow blood, but the right glue has to be freely available in space. you imagine, like, cows floating in, like, space. it sjust going to be a nightmare. so, human blood has been used in these experiments. in some ways, it seems, you know, quite feasible, but it would probably also damage the health of the astronaut.
here s a scale model we made earlier. the full size is about 6 metres wide by 12 metres high. while vivek is working with governments and businesses to get his graphene pod into space in the next six years, other labs are looking at building homes on the surface of lunar landscapes. transporting material from earth to the moon and mars is very expensive, so, really, what we want to do is utilise as much resources in situ as possible. aled s already made bricks with binders like egg albumen, chickpea juice and cow blood, but the right glue has to be freely available in space. you imagine, like, cows floating in, like, space. it s just going to be a nightmare. so, human blood has been used in these experiments. in some ways, it seems, you know, quite feasible, but it would probably also damage the health of the astronaut. that one says urea on it.