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  1. #1
    Moderator ynneb's Avatar
    Join Date
    Feb 2004

    Rapid prototype CNC laser resin. (Stereolithography)

    I can see a new topic appearing in the forum
    "Cnc Laser Rapid Prototype building"

    I Dont know much about it or the details of it, but it is a very ingenious techneque of making a prototype model.

    The concept involves fireing a Ultra-violet laser into a liquid resin pool. The resin hardens when hit by UV light.
    The laser buids up layer upon layer of hardened resin to make the item desired. The laser is moved by a X Y setup similar to what we do here.
    I still dont understand what stop the laser shining too far into the resin but I gather it is done by slowly raising the pool for each step.
    I would be intereseted if any one has any thing to add to this in the way of links or text.
    This piece was made using this process. A mould is then made out of the item to mass produce it

  2. #2
    Join Date
    Apr 2004
    The one I saw had two lasers and would only polymerize the liquid (styrene?)where they crossed. The lasers moved up the tank. This was then used to produce a mould for protoyping in whatever or a few samples. They were pretty expensive but that was in the early days of this type of thing in oz.

    Another crowd uses an single laser to fuse nylon powder with the part moving downwards.

  3. #3
    Join Date
    May 2003
    do an Alta Vista (or google) search on stereo lithography or stereolithography
    you'll get mountains of info

    robotic regards,

    = = = = =
    There is so much good in the worst of us, and so much bad in the best of us, that it ill behooves any of us to find fault with the rest of us.
    - - James Truslow Adams

  4. #4
    Moderator ynneb's Avatar
    Join Date
    Feb 2004
    How Stereolithography (3-D Layering) Works

    by Marshall Brain

    Stereolithography, also known as 3-D layering or 3-D printing, allows you to create solid, plastic, three-dimensional (3-D) objects from CAD drawings in a matter of hours. Whether you are a mechanical engineer wanting to verify the fit of a part or an inventor looking to create a plastic prototype of an invention, stereolithography gives you a fast, easy way to turn CAD drawings into real objects.
    3-D printing is a very good example of the age we live in. In the past, it could conceivably take months to prototype a part -- today you can do it hours. If you can dream up a product, you can hold a working model in your hands two days later! In this edition of How Stuff Works, we will take a tour of the stereolithography service bureau at PT CAM (Piedmont Triad Center for Advanced Manufacturing) so that you can understand everything involved and see some actual 3-D models that this technology has produced!

    The Stereolithography Machine
    PT CAM uses a stereolithography machine produced by 3-D Systems and shown here:

    3-D Systems stereolithography machine at PT CAM

    This machine has four important parts:

    A tank filled with several gallons of liquid photopolymer. The photopolymer is a clear, liquid plastic.
    A perforated platform immersed in the tank. The platform can move up and down in the tank as the printing process proceeds.
    An ultraviolet laser
    A computer that drives the laser and the platform
    The photopolymer is sensitive to ultraviolet light, so when the laser touches the photopolymer, the polymer hardens.

    If you stand next to the stereolithograph apparatus (SLA), you can actually see the laser as it builds each layer. This short MPEG file lets you see the laser building a small section of a model.

    The Stereolithography Process
    The basic printing process goes like this:

    You create a 3-D model of your object in a CAD program
    A piece of software chops your CAD model up into thin layers -- typically five to 10 layers/millimeter
    The 3-D printer's laser "paints" one of the layers, exposing the liquid plastic in the tank and hardening it
    The platform drops down into the tank a fraction of a millimeter and the laser paints the next layer
    This process repeats, layer by layer, until your model is complete
    This is not a particularly quick process. Depending on the size and number of objects being created, the laser might take a minute or two for each layer. A typical run might take six to 12 hours. Runs over several days are possible for large objects (maximum size for the machine shown above is an object 10 inches (25 cm) in three dimensions).

    A typical CAD drawing ready to be rendered on the 3-D printer. This particular piece is a plastic money clip that PT CAM gives away to visitors. Note the supports (in red) that separate the money clip from the tray and support it is it is being built. About 50 of these money clips can be created in a single run.

    You start by creating a 3-D design for your object in a CAD program. This design is tweaked before building with supports that raise it up off the tray slightly and with any internal bracing that is required during building. The SLA then renders the object automatically (and unattended). When the process is complete, the SLA raises the platform and you end up with your 3-D object. If the object is small, you can produce several of them at the same time if you like. They all sit next to each other on the tray.

    The platform in the tank of photopolymer at the beginning of a print run.

    The following photo shows a tray after building is complete, with several identical objects that were produced simultaneously:

    The platform at the end of a print run, shown here with several identical objects.

    Once the run is complete, you rinse the objects with a solvent and then "bake" them in an ultraviolet oven that thoroughly cures the plastic.

    The ultraviolet "oven" used to cure completed objects.

    What You Can Create with Stereolithography
    Stereolithography allows you to create almost any 3-D shape you can imagine. If you can get it into a CAD program, you can probably create it. The only caveat is the need for structural integrity during the building process. In some cases, you need to add internal bracing to a design so that it does not collapse during the printing or curing phases.

    The photo below shows you a typical object that has been created at PT CAM. The piece is lightweight and has the strength of polystyrene plastic. You can mount it, drill it, etc., so you can try it out in actual use. For example, a chair manufacturer will produce different arm rest shapes using stereolithography and try them out on actual chairs to see how they feel.

    This is a close-up of an engine manifold:

    For more detail on the manifold, see this short video.

    Costs of Stereolithography
    Stereolithography is not an inexpensive process. The machines themselves usually cost in excess of $250,000. They have to be vented because of fumes created by the polymer and the solvents. The polymer itself is extremely expensive. CibaTool SL5170 resin, a common photopolymer used in stereolithography, typically costs about $800/gallon. For these reasons, it is uncommon to find stereolithography machines anywhere but in large companies.

    However, there are service bureaus that can make the advantages of stereolithography available to smaller shops and individuals. For example, PT CAM will do stereolithography for $55/hour, as well as allowing companies to purchase blocks of time for as low as $30/hour. That's not cheap, but compared to purchasing your own SLA and resin or having parts machined, it is a real bargain. You can e-mail your CAD design to PT CAM and, in many cases, get your parts shipped back to you in a day or two. The short cycle time is one of the most appealing things about stereolithography!

    Special thanks to Joel Leonard, Jerry Watkins and Steve Oneyear for their help in creating this article!

    This artical was copied from http://computer.howstuffworks.com/st....htm/printable

    Who will be the first to build one of these in our forum?
    Vacpress.....you know the deal.......while your doing nothing

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