Thinking of a 3D prototype, Quanint is one of the best 3D printing services in India. We hurdles when it comes to designing its patent properly and which is only possible with a solid 3D prototype. We have designed many prototypes for industries and have also conducted multiple workshops across country on 3D Printing.
Technology has affected recent human history probably quite the other field. Think of a light bulb, steam engine or, more latterly, cars and aeroplanes, to not mention the increase and rise of the planet wide web. These technologies have made our lives better in some ways , opened new avenues and possibilities, but usually it takes time, sometimes even decades, before the truly disruptive nature of the technology becomes apparent.
It is widely believed that 3D printing or additive manufacturing (AM) has the vast potential to become one among these technologies. This 3D printing that some have claimed will put an end to traditional manufacturing as we all know it, revolutionize design, modelling and impose geopolitical, economic, social, demographic, environmental and security implications to our every day lives?
The most basic, differentiating principle behind 3D printing is that it’s an additive manufacturing process. And this is the key because 3D printing may be a radically different manufacturing method supported advanced technology that builds up layers and parts, additively, in layers at the sub mm scale. This is fundamentally different from the other existing traditional manufacturing techniques.
There are a number of limitations to traditional manufacturing, which has widely been based on human labour and “made by hand” ideology rooting back to the etymological origins of the French word for manufacturing itself. However, the planet of producing has changed, and automatic processes like machining, casting, forming and moulding are all (relatively) new, complex processes that need machines, computers and robot technology.
Medical and Dental:
The medical sector is viewed as being one that was an early adopter of 3D printing, but also a sector with huge potential for growth, because of the customization and personalization capabilities of the technologies and also the ability to enhance people’s lives because the processes improve and materials are developed that meet medical grade standards. ! 3D printing technologies are using for a number of diﬀerent applications. additionally to creating prototypes to support new development for the medical and dental industries, the technologies also are utilized to form patterns for the downstream metal casting of dental crowns and within the manufacture of tools over which plastic is being vacuum formed to form dental aligners. The technology advances to manufacture both stock items, like hip and knee implants, and bespoke patient-speciﬁc products, like hearing aids, orthotic insoles for shoes, personalised prosthetics and one-oﬀ implants for patients suﬀering from diseases like osteoarthritis, osteoporosis and cancer, along side accident and trauma victims. 3D printed surgical guides for speciﬁc operations also are an emerging application that’s aiding surgeons in their work and patients in their recovery. Technology is additionally being developed for the 3D printing of skin, bone, tissue, pharmaceuticals and even human organs. However, these technologies are getting closer to make commercialization
Like the medical sector, the aerospace sector was an early adopter of 3D printing technologies in their earliest forms for development and prototyping. These companies, typically working in partnership with academic and research institutes, are at the sharp end in terms or pushing the boundaries of the technologies for manufacturing applications. Because of the critical nature of aircraft development, the R&D is demanding standards are critical and industrial grade 3D printing systems are put through their paces. Process and materials development have seen variety of key applications developed for the aerospace sector — and a few non-critical parts are all-ready ﬂying on aircraft.
While most of the big companies do take a practical approach in terms of what they’re doing now with the technologies, and most of it’s R&D, some do get quite bullish about the future
Another general early adopter of Rapid Prototying technologies – the earliest incarnation of 3D printing was the automotive industry. Many automotive companies — particularly at the leading edge of motor sport and F1 — have followed an identical trajectory to the aerospace companies. Now companies are using the technologies for prototyping applications, but developing and adapting their manufacturing processes to include the beneﬁts of improved materials and end results for automotive parts which decreases the cost operations. ! Many automotive companies are now also watching the potential of 3D printing to fulﬁll after sales functions in terms of production of spare/ replacement parts, on demand, rather than holding huge inventories.
Traditionally, the design and manufacturing process for jewellery has always required high levels of expertise and knowledge involving speciﬁc disciplines that include fabrication, mould-making, casting, electroplating, forging, silver/gold smithing, stonecutting, engraving and polishing. Each of those disciplines has evolved over a few years and each of them requires technical knowledge when applied to jewellery manufacture. Just one example is investment casting — the origins of which can be traced back more than 4000 years. ! For the jewellery industry, 3D printing has proved to be particularly disruptive. There is a good deal of interest — and uptake — relays on how 3D printing can, and will, contribute to the further development of this industry. From new design to enabled by 3D CAD designing and 3D printing, through improving traditional processes for which jewellery production all the way to make direct 3D printed production eliminating many of the traditional steps, 3D printing has had — and continues to possess — an incredible impact during this sector.
As 3D printing processes have been improved in terms of resolution and more variety of ﬂexible materials, one industry, renowned for experimentation and outrageous statements, has come to the fore. We are talking about fashion Industry! 3D printed accessories including shoes, custom bracelets, head-pieces, hats and bags have all made their way on to global catwalks. And some even more visionary fashion designers have demonstrated the capabilities of the tech for high fashion — dresses, capes, full-length gowns and even some under wear have debuted at diﬀerent fashion venues around the world.
Although a late-comer to the 3D printing sector, food is one of the emerging application that is getting people very excited and has the potential to truly take the technology into the mainstream. After all, we will all, always, need to eat! 3D printing is emerging as a replacement way of preparing and presenting food. Initial forays into 3D printing food were with chocolate and sugar, and these developments have continued with speciﬁc 3D printers hitting the market. More recently pasta is another food group that’s being researched for 3D printing food. Looking to the longer term 3D printing is additionally being considered as an entire food preparation method and how of balancing nutrients during a comprehensive and healthy way.