Inspired by the hair structures occur in nature at different scales with multiple functionalities, Cilllia looks at new ways of 3D printing dense hair on flat and curved surfaces. It allows users to design and generate hair geometry at 50 micrometer resolution and assign various functionalities to the hair, such as mechanical adhesion property; new passive actuation and touch sensing on a 3D printed artifact. The project envisions a future where physical materials’ properties and functions, whether eletrical or mechanical can be encoded in the material fabrication process directly by users.
The Fantastic 3D Printed Neckties from the 3DTie Project Look and Move Like Real Fabric. The remarkably strong 3D printed fabric is made from PLA, and it can really take a beating. The knots are highly customizable, and are available in four styles. There are the traditional Windsor and Trinity knots, plus a Gear knot that was made to hold inserts, like a spinning gear or a custom logo. The newest knot design is the Texture option that shares the basic shape of the Windsor but repeats the triangular pattern of the tie fabric across the knot. (Scott J. Grunewald, 3DPrint.com)
Microscape is a new collection of architecturally-precise models of cities around the world. We’re starting with one of the greatest cities of all: New York. The first phase is a series of 200 “microscapes” (distinct tiles of different parts of the city), which can be assembled into a complete, highly accurate model of Manhattan. Start building New York City with a single microscape that includes your favorite landmark or choose a microscape with more personal significance
It might seem it has a fragile structure but it is mathematically safe. La Smilza can be considered a spacial reticular structure and it responds to the physical principle of levers. It is composed by broomsticks, 3D printed joints and a suspended seat secured with ropes to the frame. The structure reacts to different strengths depending on how the joints are placed. The chair is designed to be unique, personal, built on the owner's needs and anatomic features. It is transportable, its owner can bring it with him wherever he goes and it will adapt to every situation like a Darwinian creature.
The project gives a second chance to such an unvalued object as a PET bottle, which would be normally thrown away after it has been used. The idea was to create a vase conserving only its silhouette. The vase itself represents an external shell with an inner neck fillet, so it can be screwed onto a bottle like a cap. The 3D printed structure dresses the bottle and makes it disappear under its mesh. The uniqueness of design is the result of choice of shapes, the reduced use of resources necessary for the 3D prints and the new life given to items destined to be discarded.
Designed to be produced by 3D printing in order to take advantage of the process' on-demand and location-independent nature, Loops & Cheese's plastic form is flexible yet strong, perfect for minimizing stress on cables that traditional cable management systems do not take account of. Traditional cable management systems for desktops are also designed with mainly utility in mind, sometimes leaving out good aesthetics. Loops & Cheese hopes to solve these problems; If you cannot hide it, then display it proudly.
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