What's interesting is that it uses existing composite technology. Whether it can be manufactured economically is another question.
The designer has stated that it's as stiff as a normal bicycle, I am sure many would like to have a test ride to find out for themselves. Somehow, I think the suspension bridge like cables might have something to do with the stiffness of the frame.
He also states that it folds to a smaller package than the A-Bike.
It's obvious that we have to drop conventional materials used in bicycle construction to get the weight down for a folding bicycle. I wonder how many years it will take though.
I heard carbon nanotubes hold the key to producing composites up to the job. It has already been used experimentally in a carbon fibre bicycle frame. As stated in Wikipedia:
"In 2000, a multi-walled carbon nanotube was tested to have a tensile strength of 63 GPa. In comparison, high-carbon steel has a tensile strength of approximately 1.2 GPa."
http://en.wikipedia.org/wiki/Carbon_nanotubes
I read somewhere that they should be able to produce a composite with a tensile strength over 100 GPa.
What's interesting is that it uses existing composite technology. Whether it can be manufactured economically is another question.
The designer has stated that it's as stiff as a normal bicycle, I am sure many would like to have a test ride to find out for themselves. Somehow, I think the suspension bridge like cables might have something to do with the stiffness of the frame.
He also states that it folds to a smaller package than the A-Bike.
It's obvious that we have to drop conventional materials used in bicycle construction to get the weight down for a folding bicycle. I wonder how many years it will take though.
I heard carbon nanotubes hold the key to producing composites up to the job. It has already been used experimentally in a carbon fibre bicycle frame. As stated in Wikipedia:
"In 2000, a multi-walled carbon nanotube was tested to have a tensile strength of 63 GPa. In comparison, high-carbon steel has a tensile strength of approximately 1.2 GPa."
http://en.wikipedia.org/wiki/Carbon_nanotubes
I read somewhere that they should be able to produce a composite with a tensile strength over 100 GPa.
