The,Design,Rules,Printing,prin technology The Design Rules Of 3D Printing
Active shredder safety technology for the small office. Shreds 15sheets per pass into 5/32" x 1-1/2" cross-cut particles (Security Level3). Patented SafeSense® Technology stops shredding when hands touch thepaper opening. Designated shredde The electronic cigarette is not new. People who buy electronic cigarette knows that this product has been in the market for years now. Despite some sectors apparently trying to shoot the product down from the shelves, the popularity of elect
3D printing is a very fascinating form of manufacturingtechnology in my opinion. This technology does have a few negatives to it, forexample: it isnt always inexpensive. Also, the print sizes cant always bethat large. However, when you break it down 3D printing can manufacturevirtually anything. Lets cover what 3D printing actually is, and how theprocess works. Before anything can happen in the world of 3D printing, a designhas to be made. Typically a designer, engineer, artist, or whatever youd liketo call it will have to work on the computer. The artist will use a 3D modelingsoftware of some kind to create a 3D model. This 3D model will serve as theblueprint for the actual model. After the model has been developed, whatsnext? 3D printing works with a CAM system, or a computer aided manufacturingsystem. What does this mean? Well, essentially, the computer within the printeritself will tell the ink jets where to create. Computer aided, means whatit sounds like. The printer is aided by the computer itself. How does the actual process of 3D printing work? Well, letsunderstand what 3D printing is before I break it down. 3D printing is the layerby layer creation of a final product. Quite a few forms of manufacturing workaround removing material, but this technology revolves around laying it down.There are various forms of this technology also known as additivemanufacturing, some of which involve ultraviolet light curing resins tosolids. Some forms involve laying down a binder with powdered material. Otherforms involve laying down melted material in accordance to a design.Ultimately, material is laid down layer by layer by a printer. This printer isentirely automated and working in accordance to the 3D model which we discussedearlier. Lets talk about the design parameters and details within the world of3D printing. One thing to understand, this manufacturing technology cancreate virtually anything. Due to the layer by layer process, very intricateshapes, curves, hollow spaces, and centers can be created, whilst machining andmold manufacturing cannot. This technology is pretty powerful. However, thereare some design restrictions to it; just not nearly as many as there are inother forms of manufacturing. When designing a model, keep in mind that there has to besome thickness to it. If you designed a model that has .001 mm of width, evenif it was made in titanium it would probably crumble in your hand. Thats onething to consider. Many materials offer a material or machine that printspieces that can float in the build tray, as the whole platform is filled upin each layer. Not all machines do this, so support material may need to comeinto play. Although many can, not all materials can have pieces which float.(i.e. a ball within a ball design) This next statement isnt a design rule,but it is important for cost efficiency. When designing, it is always a goodidea to hollow out models. Using less material is much more efficient. Outsideof that, thats pretty much all you have to worry about with designing for 3Dprinting. Thickness, support material (when necessary), and cost efficiency.
The,Design,Rules,Printing,prin