The technique, if it works with real Martian soil, could make it possible to develop building material on Mars without needing extreme heat, water or a binding agent. Though the bricks they created were small, they were stronger than steel-reinforced concrete, Dr. Qiao said.
His team had previously worked with an analogue for lunar soil, which needs a binding agent that acts like glue in order to be compressed into a brick. The idea behind that research was that one day astronauts would take the binding agent with them to the moon, mix it with the soil and then compact it into blocks that they could use to make structures.
After that work, his team set their eyes on Mars. They realized they could produce the same kind of bricks for the red planet with smaller and smaller amounts of their space glue, until they found they could make Martian bricks by using pressure without a bonding agent.
“I thought, ‘What is going on?!’” Dr. Qiao said.
The team members think that the iron oxide, which gives the soil its red color, acts like a glue to hold the particles together after it is subjected to enough pressure. Dr. Qiao said his next step was to investigate whether the technique could create larger bricks that could potentially build a house.
“The paper is an interesting step in the right direction of development of building material for future explorers,” said Jon Rask, a research scientist at NASA who was not involved in the study. He said he would like to see this research conducted under extremely cold and dry conditions that mirror Mars’s atmosphere to see if the results would…