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3D printing: the possibilities of additive technologies

Additive technologies or 3D printing is the process of creating an object that exactly corresponds to a three-dimensional model by applying material layer by layer. This innovation has become a global trend. The main advantage of the technology is resource saving. Losses of useful substance tend to zero.

Application

3D printers have not yet penetrated into every home, but they are already present in all key areas of human life. 3D printing is in demand in the automotive industry, energy, medicine, food industry, construction/design, fashion industry. nine0003

In resource- and labour-intensive industries, the development of a product prototype costs a lot of money. With traditional casting or machining technologies, this takes weeks, months. Using the possibilities of volumetric printing, the work is done many times, and sometimes dozens of times, more quickly. At the same time, the quality does not suffer at all and the parameters of the product remain extremely accurate. By the way, the strength of the prototype is more than 20% higher than that of the classic production. nine0003

In medicine, the possibilities of 3D printing are used to design dentures, skeletons, and even internal organs. Additive technologies make it possible to create a medical instrument with certain parameters for specific patients with pathologies and anatomical features. This allows you to take a huge step forward in training and preparation for operations.

In 2011, a kidney was “drawn” on a 3D printer. Scientists have created an exoskeleton to support atrophied muscles. There are even special “pens” that “draw” living cells on injured skin areas. nine0013

On 3D printers, models of premises are created with a visual study of interiors, buildings and entire residential areas with details of houses, utilities, and infrastructure facilities.

In the field of science and education, the benefits of 3D printing are expressed in the creation of visual aids with which the learning process becomes easier and more efficient.

3D printing is in demand in the fashion world. On the printer, you can create shoes, clothes, perfume bottles. While this process is expensive, therefore, it is not used in mass production. However, piece products made on 3D printers are already presented on the catwalks. nine0003

Creative 3D Printed Sandals

The advantage of introducing AF technologies into the light industry is the ability to create products for a specific physique/foot shape. This is especially true for athletes, people with deviations of the anatomical structure. For example, designer Ross Berber introduced the world to shoes printed on a 3D machine. His collection includes 5 pairs.

3D printing allows for a breakthrough in innovation. Before a product can be mass-produced, a prototype must be tested and repeatedly tested. This is done on 3D models. You can create them in minutes. nine0003

Three-dimensional technologies are used in jewelry, when creating maps of the area, making souvenirs, customizing finished products (applying a pattern, logo).

How does a 3D printer work?

A classic 3D printer is a 3D printing device that works on the principle of FDM (Fusion Deposition Modeling). On three-dimensional equipment, you can create an object of almost any shape, with curves, a relief surface. The product "increases" simultaneously in the horizontal and vertical directions. nine0003

Printers work with various materials: plastic, metal, and so on. With their help, you can create parts that can withstand a significant load. In order for the printer to print three-dimensional figures, it is equipped with:

• extruder - for heating and forcing plastic through the printheads;
• motors (usually linear) - set in motion the mechanisms;
• work surfaces - the platforms on which everything happens;
nine0037 sensors for fixing moving parts;
• Cartesian robots - devices moving along three axes.

Printers work differently, but the classic sequence of actions can be described by a single algorithm. First, a 3D image is created. This requires specialized software. After that, the model is “cut” into horizontal layers. A special program (G-code generator) is also provided for this. The computer converts the codes into information that the 3D printer can recognize. The next step is to recreate the model. nine0003

Smartprint HB-8 3D printer

3D printing technologies

There is monochrome and color 3D printing - more than a dozen technologies (plus their modifications). Among the most common:

• SLA - stereolithographic laser printing. The technology provides the creation of models with high detail. Its essence is the layer-by-layer application of a photopolymer material. It hardens under the influence of a laser. Then the working platform is lowered. A translucent composition is used as a photopolymer: it is easy to process, paint, glue. nine0038
• SLS - the technology is suitable for working with plastics and metals. The reagent is sintered under the laser beam. The products are very durable.
• HPM - printers work with thermoplastic, auxiliary soluble materials. The latter are used to create complex multilevel models with cavities and functional holes. Finished products may have a different shape. They are durable, resistant to stress, mechanical and chemical stress.
• DLP is a relatively new 3D modeling technology. The printers that support it print with photopolymer resin. The material hardens when exposed to light. nine0038

The most progressive technologies are EBM and SLM. The first involves the impact on the material with an electron beam, and not with a laser, the second works with metals.

Equipment for 3D printing is produced by companies from the USA, Europe, and Asia. Among the famous ones are Photocentric, 3D systems, Makerbot, Azuma Engineering Machinery Inc. other.

3D model of the ship strikes with realism

Advantages of additive technologies

The advantages of 3D printing include:

1. Resource efficiency. Products are "grown" from scratch, that is, the production is completely waste-free. For comparison: when creating a blank using traditional methods, material losses sometimes reach up to 85%.
2. Efficiency. The time from the development of the layout to the receipt of the product can be reduced several times, or even tens of times, without compromising quality.
3. Mobility. nine0083 The equipment is compact, layouts can be transferred online.
4. Precision. Layered synthesis ensures absolute compliance with specified technical parameters.
5. Strength. The indicator is 25–30% higher than that of products obtained by traditional methods (forging, casting).
6. Weight. This is an important advantage for industry, aircraft and mechanical engineering. The mass of individual products is reduced by 40–50% without loss of strength. nine0038

Souvenirs and toys are successfully printed in Russia using 3D printing technology

3D printing is also used in advertising printing. For example, for the production of souvenirs. Advertising agencies involved in cross-marketing willingly order a range of services, which includes both traditional production of business cards or flyers, as well as innovative solutions.

An overview of 5 modern 3D printers that appeared on the market in 2017, see the video: nine0003

Results

• 3D printing is in demand in almost all areas (industry, medicine, education, energy).
• In some industries, additive technologies are already actively used, in others they are just being introduced.
• Technology contributes to business development, gives competitive advantages - a layout is made in a matter of minutes, resource consumption is optimized.
• Manufacturers are constantly improving equipment for three-dimensional printing, developing new technologies. nine0038

layerless 3D printing, 25x to 100x faster (+ video)

Carbon3D is a California private company founded in 2013. Since its inception, Carbon3D has been discreetly developing an innovative 3D printing method capable of revolutionizing the industry. The new technology is called CLIP (Continuous Liquid Interface Production) and uses light and oxygen to cure a photosensitive resin. According to the description, the method is similar to the familiar and well-known stereolithography (SLA), where a laser or spotlight is used to cure the photosensitive resin, but the new technology has a number of significant differences. nine0003

Using traditional 3D printing technologies, including stereolithography, objects are printed layer by layer, which significantly reduces the production speed and leads to the creation of fragile objects similar in structure to slate. On the other hand, the new technology uses light to cure the resin and oxygen as a suppressing agent. Thus, the objects are really immediately printed in three-dimensional form.

“Today's 3D printing technologies have not been able to revolutionize manufacturing, despite the promises of the developers and the expectations of the market,” says Dr. Joseph DeSimon, CEO and co-founder of Carbon3D. “The CLIP technology we developed raises the bar by allowing you to print objects with the right mechanical properties much faster. In addition, CLIP 3D printing can use the materials required to produce high-quality commercial parts.” nine0003

With the use of oxygen in the 3D printing process, a traditional mechanical technology is suddenly transformed into a photochemical process that allows for fine tuning. Among the undoubted advantages of the new technology are faster production of objects and the absence of the delamination effect. Thus, CLIP has every chance to take 3D printing to a new level. This method uses a special transparent glass that is permeable to both light and oxygen - like a large contact lens. The device is able to accurately regulate the required amount of oxygen and the moment of its supply to the resin tank. Oxygen, in turn, is used as a suppressive agent to prevent the resin from curing in certain areas. Thus, with the help of light, all areas that are not subject to oxygen treatment, which creates a kind of "dead zone", harden. Inside the resin, oxygen fills areas tens of microns thick (about two or three blood cells), in which photopolymerization literally becomes impossible. The device then takes multiple cross-sectional shots using ultraviolet rays, much like a movie is being shown. nine0003

Hearing this news, it's hard to get rid of the obvious thought – “This company is probably not real. How is it possible that someone has created a revolutionary technology of this kind, but information about it has not leaked to the media? It helps to dispel doubts that Carbon3D entered into a partnership agreement with Sequoia Capital, one of the oldest and most successful venture capital funds in the world, having received financing for the first stage in 2013. Funding for the second stage was provided by Silver Lake Kraftwerk. In total, Carbon3D has managed to raise $41 million to date - and all this, in general, has not been hidden from the public. nine0003

“If 3D printing is to expand beyond its decades-old prototyping niche, an entirely new technology needs to be developed.

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