does not require designer to own a 3D printer.allows work to spread to the most people.They will then get a share of the profits from each sale from you. The standard way to take advantage of this method requires that you upload your files onto a 3D printing marketplace or community, and the rest is in the hands of the maker! Some online marketplaces only allow for designs that are shared for free, and some provide an option for you to put a price on your designs. You can choose to make your design files available for download, and this is the most common format for distributing digital 3D designs. With this in mind, it’s always helpful to test your designs for printability before sharing them with others. This allows for valuable feedback from makers who have tried to print your file, as well as from other designers in the community. The great thing about this method is that compared to physical sales, overhead costs are very low, making it ideal for hobbyists, and it’s easy to instantly reach a worldwide audience without having to manage any inventory. We compiled the methods here with their pros and cons, and also interviewed a few of our community members to see why they chose the channel they’re using now!ĭigital distribution is when you choose to share your design files, or access to them, (as opposed to a 3D printed object) with others, whether for free, or for a price. The good news is that the 3D printing landscape offers several methods of distributing your work, with options for all types of designs and designers. The next step is to figure out how you’ll get the 3D model into the hands of everyone who wants it. MktoForms2.loadForm("// you’ve finished a design and now you’re ready to put it out there into the world. – Finished part dimensional accuracy of ± 0.2mm (± 0.007in)1
Print your parts with confidence in ABS-R and RapidRinse™, drop your part into tap water, and watch the supports dissolve to nothing in just minutes. Print dimensionally accurate ABS parts with the ease of PLA. Tap water soluble support material for ABS. Print dimensionally accurate jigs, fixtures, and end-effectors that fit seamlessly with existing components.
Print dimensionally accurate assemblies and validate your designs to get your products to market faster-all at a fraction of industrial 3D printing costs.Ĭreate durable, real ABS parts for the production floor. Prototype with production-grade ABS to achieve part properties close to injection molded parts.
METHOD reduces costs and saves time for small production manufacturing runs. Get dimensionally-accurate, production-grade, real ABS end-use parts at a fraction of traditional manufacturing costs. Tensile Strength at yield (Type 1, 0.125″, 0.2″/min) Experiment with a wide range of materials and properties to realize your ideas. Tap your innovative spirit and explore new 3D printing applications. Print third-party materials on an industrial 3D printing platform with modular hardware and advanced print settings.ĭiscover pre-qualified materials from leading filament companies to explore new 3D printing applications. With the MakerBot LABS Experimental Extruder for METHOD users can access a wide range of engineering-grade materials from leading filament suppliers. Easily slide the old filter out and slide a new one in – no tools required. When it’s time to replace your filters, Clean Air will let you know through your METHOD 3D printer’s touch display. Clean Air™ utilizes top of the line HEPA filtration to remove Ultra Fine Particles (UFPs) from the air – leaving your environment as clean – if not cleaner than it was before.Ĭlean Air plugs directly into METHOD’s on board computer allowing it to be throttled up or down depending on material and chamber temperature providing optimal environmental conditions both inside the build chamber and out. SMART HEPA FILTRATION for MAKERBOT METHODīreathe easy and keep your working environment pristine even when 3D printing engineering materials with smart HEPA filtration on the Clean Air System for METHOD.