Under the same strength premise, the carbon fiber wheelchair is generally only 1/3 of the weight of the alloy wheelchair.
High Impact Durability and Fatigue Strength. Through the carbon fiber lamination design and fiber type selection, it is no doubt that a tough and yet shockabsorbing wheelchair can be made.
Can be Formed into More Ergonomic Shapes. The formability of carbon fiber material enables us to design the wheelchair into a more ergonomic shape.
MF012/015 is made of advanced carbon fiber, which can be molded into any shape. It looks like a simple structure, but in fact is a technical marvel. Carbon fiber is an amazing material, ideal for high-load smooth, curved shape and ergonomic requirements, after years of development and the actual test, the result is to be the strongest ever and lightest wheelchair.
In the past, moving stationary wheelchair is a troublesome thing, but not anymore, because MF012/015 is the lightest wheelchair in the world, most people can easily click on by one hand.
The design concept of MF015 is different from MF012. While MF012 is mainly for senior yet still active disabled people, MF015 is aimed for young and active disabled.
This extremely light weight wheelchair realizes the dream for those disabled who want to travel, work and upgrade their lifequalities.
MF015 is definitely a good helper of the active disabled. Its light weight and ergonomic design enables it to perform like the feet of the user.
It runs silently, agilely, smoothly and thus gives more maneuverability. It can be carried easily to anywhere which eliminates the inconvenience of disabled people.
MF015M is an austere version of MF015 full carbon wheelchair. It is intended to provide a more affordable lightweight wheelchair to the users.
At 7.5* kilograms per unit and when it is compared to the MF015 full carbon version, it weights about 1 kilogram more.
However, it is still among the lightest categories. And, most importantly, at only 2/3 the cost of MF015, it is perhaps. the highest CP value lightweight wheelchair in the world.