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Nike The Nature of Motion

Experiments

Nike The Nature of Motion Experiments

For The Nature of Motion, Nike's exhibition at Milano Design Week 2016, the brand's designers, starting from the Flyknit uppers, have created a collection of futuristic sneakers called Experiments in Natural Motion, showcasing inventions which rethink the use of various materials and take inspiration from different elements of everyday use. Here they are:

 

#1 This type of convex outer sole is designed to push forward the athlete in the instant in which its foot rests on the ground.

 

#2 Taking inspiration from the typical 80’s voluminous hair, transforming a series of Velcro hair rollers in a vibrant and shock absorbing sole.

 

#3 With the aim of accelerating the pace of an athlete, this experiment uses pistons to pad the impact of the foot.

 

#4 Inspired by an indication of Nike’s first employee, Jeff Johnson, this experiment attempts to recreate the feeling of running on pine needles - both natural and synthetic.

 

#5 This experiment rethinks impact protection through plastic bags with kinetic sand inside, imitating the cohesive properties of the wet sand.

 

#6 Here are reused the spirals hair rollers to build the sole, testifying the ability to create individually custom-adjusting cushioning.

 

#7 Through the foam-toe separators typically used for pedicures, it constructs a segmented cushioning system that compresses and expands on impact.

 

#8 With the aim of transforming everyday objects into energy systems, this bold experiment shows the ability to walk on inflatable balls.

 

#9 This experiment takes inspiration from an architectural space, transforming the traditional rigid structure in a printed 3D super flexible sole.

 

#10 Through the use of small concave bags under the foot, this design sees the creation of a dynamic cushioning system.

 

#11 This experiment converts the classic kitchen brushes into a tool that can show the directional cushioning.

 

#12 The brash and two-tone design shows a rag under your feet, which allows to form a flaming cushioning system.

 

#13 This experiment replaces a line of inflatable balls with some sphere in a strategic position, so as to increase compression while the 3D molded sole enhances stability.

 

#14 Drawing inspiration from the reflexology paths of Taiwan gardens - which would help to improve the health and well-being - this design incorporates stones collected at the headquarters of Nike in Oregon.

 

#15 A liquid is place under the foot to create a fluid damping system. This design infuses vibrant color water in TPU airbags through syringes.

 

#16 Through the use of the champagne packaging, this cushioning system is based on an internal chemical catalyst that, when shaken, produce foam.

 

#17 The first design which combines Air technology to the fiber system of Zoom Air, with Brio cables.

 

#18 Inspired by a floating magnet table, this experiment uses modulate magnets mobility, fixed multicolor cables.

 

#19 This experiment sees a midsole in blue cooling gel placed over a memory foam pillow-shaped sole. Together, the levels slow the compression to maximize the cushioning and make it malleable.

 

#20 A vibrating tool system evolves the concept of helping athletes recover energy as they run.

 

#21 This spinous design uses a 3D printer to incorporate the synthetic mustache that, in the upper, serve as sensors, while places below the foot encourage the athlete running on the toes.

 

#22 Inspired by the idea of ​​unlimited cushioning, this amorphous design features PU foam dipped multiple layers, which prevent collisions.

 

#23 The future version of the Nike Air Zoom: this experiment got a great visual impact.

 

#24 This spring cushioning system preloaded stops compression perception.

 

#25 It expresses as the movement led by a myriad of microorganisms can create an explosive molecular structure.

 

#26 This design has two different sizes of PU foam balls underfoot. While each independently compresses to counter the impact, the group reacts together to form a cushioning system that amplifies the energy return.