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3d printing search primary menu skip to content 3d printing 3d designs 3d printed lamp history of 3d printing maintenance suppliers 3d printing – how it works 3d printing technologies stereolithography dlp sla 3d printing reviews cube leapfrog creatr makerbot replicator 2 solidoodle 3 search for: 3d printed trainer soles: december 2, 2015 julian hanton leave a comment new balance have partnered with 3d printing giant 3d systems. through extensive work and research together, they have created a trainer with an unusual midsole that new balance says will “represent an advance in high performance running shoes.” the 3d printed outsole provides superior flexibility, balance, lightness, and durability. the material used has been developed by 3d systems which have made many advances in materials science to achieve the promised material properties, and it is called duraform flex tpu. the midsoles are created through selective laser sintering (sls) from the elastomeric powder. new balance and 3d systems believe that this technique has not only brought about superior technical advancements but also offers the potential for custom shoes to be made for or by the consumer. there may come a point when consumers simply buy and download a file of the shoe before printing it at home. or they might collect their custom 3d printed shoes at a new balance shop. sean murphy, the senior manager of innovation and engineering at new balance says that: “to deliver this level of performance with a 3d printed component, we paired experts in running and biomechanics with leaders in plastics engineering, material development and generative design. these are the types of collaborations that will drive footwear design and manufacturing in the future.” u.s. navy 3d prints custom drones: october 12, 2015 julian hanton leave a comment in this new age of 3d printing the u.s. navy is able to print items on demand while at sea. this is exactly what they did in december 2014, where a drone was 3d printed on board the uss essex. the drone was designed to be equipped with a small camera and transmitter, that could send a live video-feed back to the pilot, using a heads up display (hud). the 3d design file was sent to the ship over a satellite link. it was then sent to the 3d printer which then printed it. only the frame was 3d printed, and when this was ready, motors, gps, radio, and a flight controller where attached. alan jaeger, a research associate at the naval postgraduate school has been researching into how 3d printing and modern communications can be combined to allow the u.s. navy to 3d print custom drones tailored for specialised missions by engineers on shore. jaeger envisages a time when ships could be equipped with the core electronics needed to make drones, but have the ability to 3d print custom frames that are adapted for individual missions. jaeger says that “the challenge aboard a ship is logistics, once a ship leaves, getting additional parts to that ship becomes difficult.” some of the u.s. navy’s ships have already been equipped with 3d printers (such as the uss essex) which had been installed for the 3d printing of surgical tools. jaeger points out some of the potential problems associated with the drone, printed aboard the essex: “even with a small amount of wind something this small will get buffeted around.” another problem was working out how to launch the drone from the ship and get it safely back (while working around other flight operations and interference from other radio sources). 3d printed drones custom drone u.s. navy uss essex boeing’s new 3d microlattice material: october 12, 2015 julian hanton leave a comment boeing has recently released a new material that is made up of 99.99% air. this revolutionary material is constructed from a lattice of hollow, metal struts that allow it to have extremely high compression strengths while also being super lightweight. the materials remarkable properties are demonstrated by this photo from boeing, showing a dandelion supporting boeing’s new material. the material has been named microlattice and is 100 times lighter than styrofoam and has a far higher compressional strength. the 3d open-cell polymer structure is described by research scientist sofia yang as “the world’s lightest material”. an example that yang gives is that its incredible properties could protect an egg from being dropped from several stories high as the structure would be able to absorb and distribute the force from hitting the ground to protect the egg. this ultra-light metallic microlattice was originally developed by a team of scientists at hrl laboratories in california. to produce the material the research group used a technique based on self-propagating waveguide formation. this involves passing a uv light into a reservoir of curable resin through a perforated mask. the process is similar to stereolithography (3d printing). however, the rate of formation is far quicker, and with this method templates can be created in between 20 and 100 seconds. the process results in a large 3d lattice of free standing metallic foam. boeing will likely be able to use this material in their aircraft to save weight to increase fuel efficiency and change flight characteristics. boeing hrl laboratories microlattice open-cell polymer 3d printing helps repair nerves: october 6, 2015 julian hanton leave a comment professor michael mcalpine from the university of minnesota has developed a technique to regenerate nerve tissue between the gaps of a torn nerve. the 3d printed structure is inserted in the gap between the two ends of a damaged nerve and is able to act as a guide as the nerve regrows and reconnects with the help of certain chemical stimulants. twenty million americans suffer from peripheral nerve injuries, most commonly caused by disease or trauma. nerve injuries cost the united states $150 billion per year. the most common surgery to repair nerve injuries involves a surgeon taking nerve tissue from another area of the body to bridge the gap of the damaged nerve. however this requires surgery in other parts of the body to collect the tissue and can result in sensory loss from the site of where it was cut. professor mcalpine’s approach involves inserting an artificially created scaffold (that has been 3d printed) in between the two ends of the broken nerve to serve as a bridge and guide for the regeneration of the nerve (usually with the help of chemicals to stimulate the nerve growth). professor mcalpine’s research group demonstrated (with the collaboration of biomedical engineers and neurosurgeons) that a 10mm piece of a rats sciatic nerve could be regenerated by 3d printing a mesh of sensory and motor nerve fibres. the research team used a 3d scanner to model the missing piece of nerve. this information was then sent to a custom 3d printer. the 3d printed tissue is y-shaped with one branch having lots of sensory nerves to relay information to the brain and the other branch of mainly motor neurones to relay information to the muscles. when this technology is eventually deployed for medical treatment mcalpine says that then the corresponding nerve to the damaged nerve on the other side of the body could be scanned to help the construction of the repair nerve. he goes on to propose that there may already be geometrical data of nerves from cadaver models stored in data bases. this new technique is only the beginning of a whole new field of development for nerve regeneration using 3d printing to allow doctors to make much more complex shapes of nerve branching. new materials will also be developed as well as new chemicals to help stimulate the healing and growth of injured nerves. mcalpine says that his team will continue to develop new materials and he hopes to create a biodegradable material that could be used as ‘scaffolding’ for the new nerve to grow around. this would then dissolve in the body once the nerve has regrown. he estimates that the technolog

URL analysis for robots.co.uk

http://www.robots.co.uk/?tag=3d-printed-instruments
http://www.robots.co.uk/?page_id=106
http://www.robots.co.uk/?page_id=104
http://www.robots.co.uk/?page_id=102
http://www.robots.co.uk/#search-container
http://www.robots.co.uk/?feed=rss2
http://www.robots.co.uk/?p=457
http://www.robots.co.uk/?tag=jamming
http://www.robots.co.uk/wp-content/uploads/2015/10/m_092415-engineering-blake3dprintedscaffold.jpg
http://www.robots.co.uk/?tag=aircraft
http://www.robots.co.uk/wp-content/uploads/2015/08/new-form-2watt-laser-top.jpg
http://www.robots.co.uk/wp-content/uploads/2015/10/microlattice.jpg
http://www.robots.co.uk/?page_id=134
http://www.robots.co.uk/?tag=3d-printed-drones
http://www.robots.co.uk/wp-content/uploads/2015/10/uss_essex.jpg
southampton.ac.uk

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Error for "robots.co.uk".

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  REFERRER http://www.nominet.org.uk

  REGISTRAR Nominet UK

SERVERS

  SERVER co.uk.whois-servers.net

  ARGS robots.co.uk

  PORT 43

  TYPE domain

DISCLAIMER
This WHOIS information is provided for free by Nominet UK the central registry
for .uk domain names. This information and the .uk WHOIS are:
Copyright Nominet UK 1996 - 2017.
You may not access the .uk WHOIS or use any data from it except as permitted
by the terms of use available in full at http://www.nominet.uk/whoisterms,
which includes restrictions on: (A) use of the data for advertising, or its
repackaging, recompilation, redistribution or reuse (B) obscuring, removing
or hiding any or all of this notice and (C) exceeding query rate or volume
limits. The data is provided on an 'as-is' basis and may lag behind the
register. Access may be withdrawn or restricted at any time.

  REGISTERED no

DOMAIN

  NAME robots.co.uk

NSERVER

  NS2.GRADWELLCLOUD.COM 109.224.233.88

  NS1.GRADWELLCLOUD.COM 109.224.233.83

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