What is 3d printing?_Brief introduction of 3d printing history
in 1964. The sci-fi author, Arthur C. Clarke first time mentioned the basic function of 3d printing.
In 1987 The first 3d printer was published by Chuck Hull of 3D Systems with the technology of SLA(“stereolithography” )
There is still another 3d printing technology including FDM by Stratasys and SLS by 3d systems during the 90’s and ’00s. The price is quite expensive at that time and mainly used for industrial prototyping.
In 2009, the ASTM Committee F42 published a document containing the standard terminology on Additive Manufacturing. This established 3D printing as an industrial manufacturing technology.
In the same year, the patents on FDM expired and the first low-cost desktop 3d printer was born by the RepRap project. What once cost $200,000, suddenly was available for below $2,000.
As Wohlers said about the adoption of 3d printing, it will keep growing, more than 1 million desktop 3d printers were sold globally between 2015 and 2017. until 2017, the sales of industrial metal printers almost doubled compared to the previous year.
3d printing today plays a very important role in the world of manufacturing. The inflated expectations of the previous year have given their place to increased productivity. More professionals and hobbyists have adopted this kind of technology.
How does 3d printing work?
All 3d printer is based on the same basic principle to build up the parts: a digital model is molding by adding a layer 3d material at a time to a whole physical 3d object. This where the alternative term Additive Manufacturing comes from.
Compare to traditional manufacturing technologies like subtractive (CNC machining) and formative (Injection molding), 3d printing is a totally different kind of way of producing parts.
In 3D printing, there’s no need to use special tools like a cutting tool with certain geometry or a mold, on the contrary, that part is molding on a direct platform, which makes it unique and more convenient.
Begin with a digital 3d model- the blueprint of the physical object during the process. And the model has sliced into 2-dimensional layers and then translate into a series of machine language(G-CODE) for the printer to print.
The ways of 3d printer work differently. For instance, in desktop FDM printers, by melting the plastic material and through the nozzle with high temperature, the model was printed layer by layer on the 3d printing platform. Large industrial SLS machines use a laser to melt (or sinter) thin layers of metal or plastic powders.
Normally it takes 4 to 18 hours to print out a 3d model depends on the model size and the 3d printer itself. But rarely the 3d printing parts are ready to use outside the machine. They need more post-processing to achieve the exquisite level of the printing out. All this needs extra time to workout.
3D printing vs. Traditional Manufacturing
Compare to traditional manufacturing, 3d printing offers great geometric flexibility and can produce custom parts and prototypes quickly at a very low-cost. but when large volumes, tight tolerances, or demanding material properties are required traditional manufacturing technologies are often a better option.”
Different types of 3d printing
Material Extrusion (FDM): insert the filament into the tube then go through the extruder until it feels it can not insert anymore. There’s a nozzle come with the extruder, once it reaches up the temperature it needs. the motor will drive it to melt and move.
FDM is the most cost-effective way of producing custom thermoplastic parts and prototypes. It also has the shortest lead times – as fast as next-day-delivery – due to the high availability of the technology. A wide range of thermoplastic materials is available for FDM, suitable for both prototyping and some functional applications.
Vat Polymerization (SLA & DLP): Liquid photopolymer in a vat is selectively cured by UV light
Selective Laser Sintering (SLS)
Material Jetting (MJ): Droplets of material are selectively deposited and cured