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“3D printing” is an umbrella term for a host of processes and technologies that offer a full spectrum of capabilities for the production of parts and products in different materials. <br>
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Beginner’s guide to 3D Printing Welcome to iThink3DP’s Beginner’s Guide to 3D Printing. This document is for people who are completely new to 3D printing technology or who are looking at gaining additional information on 3D printing technology. It is very imperative that 3D printing technology is going to change the world. Experts claim 3D printing is a much bigger revolution than internet. We at iThink3DP’s completely agree to those viewpoints. In this document, we shall be providing data to illustrate the true revolutionary nature of 3D printing. “3D printing” is an umbrella term for a host of processes and technologies that offer a full spectrum of capabilities for the production of parts and products in different materials. One thing common in all these processes is the manner in which production is carried out – layer by layer in an additive process. That is why “3D Printing” is also called additive manufacturing in contrast to traditional methods of production that are primarily subtractive in nature, also called as “subtractive manufacturing” or molding/casting processes. https://www.ithink3dp.com/
1. 3D Printing Started in the ‘80s. Early additive manufacturing equipment and materials were developed in the 1980s. In 1981, Hideo Kodama of Nagoya Municipal Industrial Research Institute invented two additive methods for fabricating three-dimensional plastic models with photo-hardening thermoset polymer, where the UV exposure area is controlled by a mask pattern or a scanning fiber transmitter. On 16 July 1984, Alain Le Méhauté, Olivier de Witte, and Jean Claude André filed their patent for the stereolithography process. The application of the French inventors was abandoned by the French General Electric Company (now Alcatel-Alsthom) and CILAS (The Laser Consortium). The claimed reason was "for lack of business perspective". Three weeks later in 1984, Chuck Hull of 3D Systems Corporation filed his own patent for a stereolithography fabrication system, in which layers are added by curing photopolymers with ultraviolet light lasers. https://www.ithink3dp.com/
2. 3D printing was primarily used for prototyping, & now being used to create finished products. • Taking its roots in manufacturing, 3D printing was primarily used for prototyping products. In fact, large corporations continue to use rapid prototyping to save millions of dollars. For example, Ford is currently using 3D printing to make large selections of its car parts for testing. According to Ford, the company can save up to $493,000 a month of work with this production method. Getting back to the point though, 3D Printing is increasingly being used to create finished projects. And now, we see that designers and individuals worldwide are also turning to 3D printing to bring their own creations to life, both for personal use and for the enjoyment of others. • • https://www.ithink3dp.com/
3. 3D printers print a model in layers • Additive manufacturing works a lot like your inkjet printer at home. The ink jet printer puts a single layer of ink on top of the page in order to get the job done, while a 3D printer adds new layers on top of each layer before it, until the object is completed. Because of this layer-by-layer printing process, an escape hole is usually necessary to properly print and clean your models. • https://www.ithink3dp.com/
4. There are several types of 3D printing technologies • Fused deposition modeling: MakerBot is one of the best examples of this technology. These printers melt a plastic filament and deposit the plastic in layers until it fills up the model. There are two types of plastic, both of which MakerBot uses: ABS, which is sturdy and made from oil-based resources, and PLA, which is biodegradable and made from plant-based resources. Stereolithography: These machines use a laser to cure a resin and build the prototype one layer at a time. Rapid prototyping, another form, doesn't use supports to hold up the part so that it can be built faster, but in basic stereolithography, the supports must be manually removed from the part. Selective laser sintering: Lasers are used to sinter powdered metal, binding the powder together to create a solid structure. After each layer is sintered together, the structure drops and the next layer is built on top of it. • •
5. 3D printing can lower production costs. • Traditional manufacturing models require a lot of upfront costs, storage fees and uncertainty from investors. Machines have to be set up, space rented, and fingers crossed that the manufactured product sells. 3D printing takes a more fluid approach: you can print orders on-demand. If you’re a maker or an entrepreneur trying to get a small business off the ground, this can home in handy. The additive process wastes very little material, and you can print as the orders come in. This makes it less financially risky and translates into a low cost of production. https://www.ithink3dp.com/
6. 3D printing is going to cause disruption in many industries • We know 3D printing will upheave mass manufacturers, but what else will the technology affect? Well, just about everything. Educators can print tools or designs in schools. Artists will have a new medium to work with. Healthcare providers can quickly create what they need in-house. Parents will be able to replace toys or broken household items in a matter of hours. Also you can visit us to buy the 3d printing products at https://www.ithink3dp.com/ • •
