We ll utilize the high albedo and reflectiveness of the snow.
Expanding origami solar panel structure.
To date all kinematic modeling of rigid origami treats the paper as having zero thickness.
Because the habitat will have to be transported with a hercules plane and potentially later by a rocket there is very strict volume requirements.
Howell said origami through compliant mechanisms is a perfect fit for space exploration.
Origami inspired engineering is rapidly finding applications in technology moving beyond space based solar panels and self assembled manufacturing components to commercial products including.
Their 1 20th scale tabletop prototype expands to a deployed diameter of 4 1 feet 1 25 meters.
It is low cost and the materials can handle harsh solar environments.
Solar power origami style nasa.
System must be lightweight and pack a large area of solar panels into a small volume for transport.
From digestible origami pills that could provide alternatives to invasive surgery to solar panels that could be tightly packed in an aircraft and deploy after launch at the heart of origami s.
Applying origami principles on rigid silicon solar panels a material considerably thicker than the paper used for the traditional japanese art the byu conceived solar array would unfold to.
Origami has been a hot topic in technology recently.
The horus uses an expanding ring structure to unfold a solar membrane.
This well known origami fold was invented by japanese astrophysicist koryo miura.
A deployable structure is a structure that can reconfigure and change shape size mainly from folding and unfolding and has many applications from daily essentials e g umbrella vascular stents to solar panels for spacecraft.
Brian trease at nasa s jet propulsion laboratory has been thinking about how it could be used in spacecraft.
Space is a great place for a solar panel because you don t have to worry about nighttime and there are no clouds and no weather he said.
One technique that has been used for an origami inspired solar array is called a miura fold.
This type of origami has probably the greatest application potential in engineering structures 1 2 ranging from solar panels space mirrors and aircraft wings to robots because most materials used in these applications are relatively rigid.