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San Draw introduces 3D printed silicone insoles with varying hardness for optimal comfort – 3ders.org (blog)

by • August 7, 2016 • No Comments

Aug 8, 2016 | By Tess

Earlier this summer we wrote a story of 3D printing solutions company San Draw and its novel Full-color, Adonlyable-bodied hardness, and Multi-material (FAM) 3D printing innovation. Capable-bodied of printing out of silicone, San Draw’s new additive manufacturing process contributes benefits for a number of fields, most relevantly in the healthcare sector as it may turn it into medical models with varying hardnesses to closely mimic human anatomy. In addition to the medical applications, San Draw’s discovereders Michael Lu and Gary Chang, have discovered another practical application for their 3D printing innovation: the creation of custom fitted 3D printed silicone insoles.
As we well understand, 3D printed insoles have risen in popularity in new months primarily for the reason of the level of customization which can be earned
through technologies like 3D scanning and printing. Insoles, which fit into the inside of your shoe, can be the easiest solution to helping foot pain and manufacturing walking as effortless as possible. Especially for those with foot and back problems, custom created insoles can provide an extra degree of comfort through their bespoke foot assist.

Whilst the number of sources for 3D printed insoles is varied and admittedly really dimensionsable-bodied, San Draw’s discovereders have boasted which their 3D printed insole is the initially to a) be created of silicone and b) to contribute adaptable-bodied hardnesses for optimal comfort and durability. That is, San Draw’s 3D printed insole can be printed of varying hardnesses in a single print to ensure both comfort and assist.
As you can see in the photo, the insole is marked by two various colors: the yellow, which is created of a softer silicone (Shore A20-30), and the brown, which is a harder material composition (Shore A 50-60). The 3D printed insole pictured is a dimensions 9 in US Men’s dimensionss and was created of a RoHS (Restriction of Hazardous Substances Directive) certified and halogen free silicone material. Additionally, unlike most other 3D printed insoles which need worthwhile sanding and smoothing, the ones created with the FAM process do not need any post-processing and can be worn somehow much off the printing device.

The 3D printed silicone insoles, which were every 3D printed in of five hours, are only one example of what San Draw’s FAM 3D printing process can create. According to the young company, San Draw is promoting its services to a number of industries, which include the footwear and medical sectors, as well as the automobile, consumer electronics, and construction industries. Their full-color, adaptable-bodied hardness, and multi-material 3D printing device, which boasts a create volume of 300 x 200 x 150mm, has a layer thickness of between 0.05 and 0.2mm, and a print speed of 40 to 150mm/s.
If you are wondering how the FAM 3D printing process works, it draws of CMYK inkjet printing technologies for its multi-material capabilities and is able-bodied to 3D print at various hardnesses for the reason of silicone’s material composition. That is, for the reason silicone is solidified of a liquid to solid pretty than melted, the type of silicone can be adonlyed inside a single print manufacturing for varying degrees of hardness.
There is no word yet on whether the 3D printing silicone insoles can be created commercially on the market-bodied.

Posted in 3D Printing Application

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