incorporating LED to jewelry can add the elements of surprise and the uniqueness of the design. However, there might be the risk of making the jewelry into Halloween costume decoration. The design and the choice o color is very important.
take note above us a self-construct simple LED jewelry kit, which means it is possible to hide everything at the back of such a small piece of jewelry.
AND
of course the amazing Zac Posen dress that stunned everyone(with and without light) at MET gala 2016:
Alternative of LED would be luminous(glow in the dark) materials which does not need electricity. We have seen it during concert, Halloweens, Christmas, etc.
“The secret to her magical touch? Richard applies luminous phosphorescent paint to each piece, which creates a turquoise glow when ‘charged’. The phosphorescent paint is charged by being held under a lamp for a few minutes or in the sun for a few hours.”
If this paint can be used, it solves the problem of hiding battery and wire, reducing the bulkiness of the product, and the lighting parts can be more specifically chosen and drawn.
There are many different types of materials for 3D printing, each has its owe characteristics, pros and cons. Here are some of the more common options:
reference: blog.tinkercad.com
Nylon:(Polyamide)
-Also called White, strong & flexible/ Durable plastic/ White plastic
-Strong and flexible plastic
-1mm minimum wall thickness
-Naturally white, but you can get it colored
-About 10 layers per 1mm
-Made from powder
-Alumide=Polyamide + Aluminum
-Interlocking, moving parts possible
ABS:(Home printers)
-Strong plastic like legos are
-Made from spaghetti like filament
-Many color options
-about 3 layers per 1mm
-1mm minimum wall thickness
Resin:(Multiple options)
-Also called White resin, Black resin, Transparent detail/ White deail resin/ High detail resin, Transparent resin, Paintable Resin
-Rigid and a bit delicate
-Liquid Photopolymer cured with UV light
-White, black & transparent most typical colors
-About 10 layers per 1mm
-1mm minimum wall thickness
Stainless Steel:
-Very strong material
-Made with multiple steps or from powder directly
-Coloring options like gold and bronze plating
-About 6 layers per 1mm
-3mm minimum wall thickness
Gold & Silver
-Strong materials
-Made from wax and then casted/processed in powder form
-About 10 layers per 1mm
–0.5mm minimum wall thickness
Titanium:
-Strongest material
-Direct metal laser sintering
-About 30 layers per 1mm
-o.2mm minimum wall thickness
*note: sintering is the process of compacting and forming a solid mass of material by heating or pressure without melting it to the point of liquefaction(lose strength and behave like a liquid). Sintering happens naturally in mineral deposits or as a manufacturing process used with metals, ceramics, plastics, and other materials.
Ceramic:
-Rigid & delicate
-First ceramic is printed then surface is glazed
-Ceramic White, glaze typically white
-About 6 layers per 1mm
-3mm minimum wall thickness
-After printing , firing and glazing is still required
Gypsum:
-Also called Sandstone/ Rainbow ceramics/ Multicolor
-Rigid & delicate made from powder
-Naturally white, but you can get it with colors
-About 10 layers per 1mm
-2mm minimum wall thickness
Other materials includes Laywood, PLA, Aluminium and Cobalt derivstives(industrial grade 3D printing), and even paper.
For my jewelry product, it is obvious that metals are the best material for the appearance. They are strong and can be made into intricate designs as the minimum thickness is comparably small, and the layers per 1mm is comparably large.
However, in ADM, metal 3D printing is currently unavailable. As such, I would carry out my modelling in alternative material available that is best suitable to present my design.
Another aspect is the cost of the printing. Using silver and gold can be costly, and resulting in the high retail price of the product. Stainless steel is lower in cost, but the product would be more rigid.
CNC is also possible. As far as I know, ADM have metal cnc.