1.1.5 Applications of 3D printing
Rapid prototyping
Rapid improved technologies; diversity materials vary from polymers to living tissue; advocate laws; government subsides; undeveloped market are the primary reasons for the growing of the 3D printing. The constant development of technology has push 3D printing into the mainstream of manufacturing industry. Originally, there was a limit on the traditional models due to prototyping purpose but recently 3D printing has made a fundamental shift towards mainstream product manufacturing in industries varying from aerospace to consumer goods. In many industries, the technique of 3D printing has used to create 3D models and prototypes, including automotive, aerospace, healthcare, and consumer products, thereby to study if it is possible to complete a project in shorter time and with fewer resources.
Customized Production
Industrial contexts have broadly used the 3D printing for more than two decades. However, it has just been noticed by public till recently. More diversity and fewer quantities are required as the consumers are trend to have individual products more than the mass one. To reach the customer expectations, 3D printing is the one could customize the product development and product development time.
Product formation is the widely usage of 3D printing since it provides cheap test out of dimensional products for designers and engineers before producing by expensive tool and manufacturing process.
7 Market By Application
7.1 Introduction
The standard application for 3D printing has generally been prototyping in mechanical and automotive settings rapidly. Since getting to be in mainstream, 3D printing has entered into various markets. Around all the application areas, auto...
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...nts, and tremendous R&D actions are the significant factors for this huge development.
8.1.3 Asia-Pacific
Due to the increasing level of living standard and wages, majorly, developing economies countries like China and India retain colossal development chances to the 3D printing assembling advances. Case in point, China is actively taking activities, for example, huge investment and government subsidizing in R&D, to promote 3D printing as an assembling technology.
8.1.4 Row
A portion of the players in the 3D printing market mainly incorporate 3D Systems (U.s.), Stratasys (U.s.), Exone (U.s.), Arcam (Sweden),optomec (U.s.), Envisiontec (Germany), EOS (Germany), Layerwise (Belgium), microtec (Germany), and Materialize (Belgium), among others.
http://3dprintersusa.com/mckinseys-report-3d-printing-among-12-disruptive-technologies-with-33-trillion-potential-by-2025/
3D printing has the potential to revolutionize the way we make almost everything. 3D printing was invented in the mid 1980s and was initially known as additive manufacturing. It consists of the fabrication of products through the use of printers which either employ lasers to burn materials (sintering) or place layer upon layer of material (known as stereolithography), eventually resulting in a finished item. Unlike the traditional manufacturing process, which involves milling, drilling, grinding or forging molded items to make the final product, 3D printing “forms” the product layer by layer. There are many different technological variants but almost every existing, 3D printing machine functions in a similar way: a 3D computer-aided engineering
Technology is evolving rapidly in today’s society. Different types of technology are coming into the scene. One piece that has been revealed and is used by millions of people is 3D printers. In the documentary “Print the Legend,” viewers can learn about the process of making a 3D printer and the marketing behind this piece of technology. However, there is a hidden message in the documentary “Print the Legend.” That message is no matter what obstacle you may face you can always overcome it through hard work. “Print the Legend,” educates viewers on the world of 3D printing and tries to send a message to the audience to never give up on your dreams.
The process starts with a concept or idea.(Mashable) The first stage of 3D printing is planning out this concept with either computer aided design or animation modeling software. There are tons of programs out there today with these capabilities. Google SketchUp for example is known for being easy to use.(3ders) Using some easy tools that can be learned quickly, edges and faces can come together to make very intricate models. It can even be used with Google Earth. All those models of the world in that software are made in what is basically the same process digitally. Blender is the free 3D creation program that exists for the needs of major operating systems.(3ders) It is a high end software containing features that are much more capable than Google SketchUp. Tinkercad is a newer way of creating designs for 3D printers and works slightly faster than the others.(3ders) Containing only three simple tools, it’s effectiveness for creating models is among the best..
We need to have a range of supplier who can supply us with a range of different products with the most up to date technology this would attract more consumers.
Mechanical Engineering 130.2 (2008): 6 - 7. Academic Search Complete. Web. The Web. The Web.
People nowadays might get the impression that the 3D printing technology is a relatively new concept in our daily life. However, 3D printing technology is invented and utilized in many fields such as creating human organs in healthcare, building architectural models in engineering, even forming components that can be used in aeronautic fields long ago. Since Charles W. Hull has invented the 3D printing technology in the 1980s, scientists, engineers, and even normal people were and still are trying to discover more possibility of the usages and changes on this technology. Same as every invention of the new technology, with its undeniable beneficial effects, 3D printing also faces lots of limitations
The 3D Printer can be a bad thing in other people's opinions because it can cause people to illegally print out guns or even side effects that can happen with the Printer. One major thing is that the 3D Printer can cause is that it can use up a lot of electricity that can cost you a lot to pay for your electric bills. This can cause you to waste your money for your future and having not enough money to pay for your other bills because of the use of 3D Printers. “3D Printers consume about 50 to 100 times more electrical energy” (Gilpin). 3D Printers have a lot of parts in the machine to make the Printer work properly, which can also determine how much power it has to use when using it, and if you Printer is complex, this can use a lot of energy which can cause you to rise up your electric bill by a bunch which can cause
The idea was to improve 3d printer with special technology, a single printer, with multi material features, can transform from any 1D strand into 3d shape, 2d surface into 3d shape or morph from one 3d shape into another. The shape of 3d technology is basic mode for 4d. Objet Connex multi-material technology is an 3D printing important part of his work – and is being used extensively in this new process. The Connex multi material technology allows the researchers to program different material properties into each of the various particles of the designed geometry and harnesses the different water-absorbing properties of the materials to active the self-assembly process. With water as its activation energy, this technique promises new possibilities for embedding programmability and simple decision making into non-electronic based materials.
3D printing has many advantages over traditional construction methods. With the help of 3D printing, an idea can transform a designer’s computer to actual finished product or component, potentially skipping many of traditional manufacturing steps, which includes procurement of parts, creation of moulds, creation of parts using different moulds, welding metal parts together, machining to carve parts from blocks of material and final assembly. It also reduces the amount of material wasted in manufacturing and creates difficult objects with complex geometric structures like fractals which can add strength, or are natural in shape, may reduce weight, or increase functionality. In a typical metal manufacturing, for example, it can create objects with an unique honeycomb structure, while bioprinting on other hand can create organs with an internal network of blood vessels. But there are some limitations of 3D printing currently, which vary by printing technique, include limited object size, relatively slow build speed, limited resolution or object detail, high materials cost and, in some cases, limited strength of object. However, with recent advancement it is possible to overcome these limitations.
...he organization. The output of the design group’s efforts is detailed drawing and other specifications, which assist the succeeding groups for effective usage of the raw materials into a finished product. This information is also important for the product
The technology and complex foundation of additive manufacturing (AM) or more commonly known as 3D printing is still being widely explored through trial and error processes to improve this innovative field. Consumer goods such as clothes, food, decoration, household objects and tools, fragrance and so much more has good prospect within the spectrum of AM applications. The 3D printing machine enable industrial designers, mechanical engineer, packaging designers, graphic artists, marketing staff, fashion designers, interior designers and the like to create prototypes efficiently. How is timing more efficient with AM? Time to market shrink significantly as the 3D printer help designers and engineer bring their creation to life swiftly. All matters of aesthetics and functionality can be seen and reformed for optimal quality with AM.
The second way is by using computer aided drafting (CAD) and computer aided manufacturing (CAM) programs on your computer.
Materials engineering and computer engineering are two of the modern examples of industrial engineering. Industrial engineers have the challenge of incorporating today’s leading technological advances with the production of them in manufacturing facilities. Their purpose is to maximize output, while minimizing the costs for materials and production. This is why industrial engineers must have knowledge of product development, materials processing, optimization, queuing theory, production techniques, and engineering economy. Industrial engineers must have adequate skills in computer aided design and computer aided manufacturing.
Advanced CNC fabrication tools and 3D printing machines have made notable improvements in the construction industry. The benefits of this new approach have been developed over many years to increase...
Computer integrated manufacturing is a relatively new technology arising from the application of many computer science sub disciplines to support the manufacturing enterprise. The technology of CIM emphasizes that all aspects of manufacturing should be not only computerized as much as possible but also linked together via a computer communication network into an integrated whole. In short, CIM has the potential to enable manufacturers to build cheaper, higher-quality products and thus improve their competitiveness.