3D Printing or Additive Manufacturing is a process by which almost any three-dimensional object of any shape can be made from a digital model. In an additive process an object is created by laying down successive layers of material until the entire object is created. Each of these layers can be seen as a thinly sliced horizontal cross-section of the eventual object. This method differs vastly from traditional machining techniques that rely on the removal of materials either by cutting or drilling which are subtractive processes.
what is technology 3D Printing or Additive Manufacturing is a process by which almost any three-dimensional object of any shape can be made from a digital model. In an additive process an object is created by laying down successive layers of material until the entire object is created. Each of these layers can be seen as a thinly sliced horizontal cross-section of the eventual object. This method differs vastly from traditional machining techniques that rely on the removal of materials either by cutting or drilling which are subtractive processes.
Application of 3d printing The worldwide 3D printing industry is expected to grow from $3.07B in revenue in 2013 to $12.8B by 2018, and exceed $21B in worldwide revenue by 2020 (Source: Wohlers Report 2015). As it evolves, 3D printing technology is destined to transform almost every major industry and change the way we live, work, and play in the future. 3D printing is applicable across almost all segments of product development.
we make prototypes, your idea comes true
we help you conceptualise, design, diagram and 3D print of your requirement. In present days 3D printing are used all across industrial verticals.
A prototype is an operating version of a solution. It is often made with different materials than the final version. Prototypes allow us to test how our solution will work. 3D printing system offers the world’s most advanced solutions, allowing mold designers to print production molds in one or two days as opposed to days and weeks for metal tools. 3D Printing helps mold makers when complex geometry would make traditional tooling difficult, low quantities are needed, or design changes are likely.
One of the most important applications of 3D printing is in the medical industry
Dental 3D printing takes the efficiencies of digital design to the production stage. By combining oral scanning, CAD/CAM design and 3D printing, dental labs can accurately and rapidly produce crowns, bridges, stone models and a range of orthodontic appliances. With an 3D Printer model work, one can and increase output per technician. By transitioning to a fully digital process, one also eliminate the discomfort and inconvenience of physical impressions, and build customer satisfaction. With a fully digital process, there is no need to store bulky, physical models. Store all of your cases digitally, for as long as you need.
Heart & other critical operations Performing critical heart operations can be easier for surgeons by using 3D Printed exact replica of patient's Heart. By using the MRI or CT scan data, replica of any organ can be created by using 3D Printing technology. Doctors can take critical decisions before actually opening the body part, thereby they can save crucial time of operation.
Prosthetics 3D Printed prosthetics are becoming popular day by day not only cosmetic purpose, but this includes individual finger movement through the use of Electro-myographical sensors stuck to the amputee's skin.
Help Clients to Better Visualize your Design By printing more detailed models, will help your clients to better visualize the final projects, ultimately helping your firm to win more business With a 3D Printer one can significantly reduce the time and expense in producing building models, often requiring highly delicate details. 3D printed models are also stronger than traditional models and won't buckle or break over time. Using 3D printing allows one to be more innovative with his/her model making.
The new concept of 3D printing art and design unleashes a new avenue for creativity, strengthening learning opportunities in art and fashion, theater and performing arts, and computer and graphic design programs. 3D printing adds an extra dimension to the artwork of students experimenting with complex shapes, forms and materials. 3D printing technology produces astonishingly smooth, detailed models and parts in an array of materials, including rigid photopolymers ready for painting and finishing.
3D printing technology slowly seeps into the worlds of fashion designing. We've had the opportunity to witness quite a few innovative and experimental 3D printed wearable's which were quite attractive
The jewellery industry is no exception. It was amongst the first industries to utilize 3D printing in the 'investment casting' procedure. Instead of metal printers, they use wax here, that is, the piece of jewellery is printed or sculpted out of wax. Afterwards, Plaster is poured on both sides, while liquefied metal is poured on the wax, which melts, leaving behind a metallic version of the wax sculpt in the plaster. Finally, the jewellery piece is polished by the jeweller. To date, this is the basic procedure several independent jewelers have been using 3D printers for in their businesses.
In the jewellery industry, Computer Aided Design (CAD) has opened up a new period of creativity that some may argue is still in the nascent stage largely due to the traditional attitude of many jewellers. However, because of the benefits of CAD there has been an increasing trend to embrace 3D printing technology. This technology has brought in many jewellery manufacturing service providers who are now offering CAD and Computer Aided Manufacturing (CAM) facilities at more affordable prices.
Nothing conveys an idea better than holding it in your hand. 3D printing is an effective way to enrich learning in virtually any discipline. Students can boost their career opportunities by showing potential employers precision 3D models built on-site at their academic institutions. Starting their portfolios before graduation offers students the advantages of both the 3D printing know-how and the creative problem solving.
There are many other fields as mentioned below where 3D printing technology can be introduced effectively
2. Personalized gift item
3. Topography for Geological survey ……and many more.