Increasing the solidity of a part without its weighting.
Combining of modeling and 3D printing processes can significantly reduce the entire optimization process. Modeling replaces the laborious and costly material testing procedure, and a prototype can be produced quickly and economically using innovative 3D printing technology. The automotive industry was one of the first to introduce additive production technology, the use of 3D printing technology in this area extends to almost every detail of the car: the engine and its components, gearbox, cylinder heads, intake manifolds and many other car parts.
Advantages of additive production in the automotive industry:
The ability to quickly and effectively carry out changes in the engine prototype
Engineers have the opportunity to conduct a full testing of the finished parts
The 3D printing industry can meet many requirements and demands of the aerospace industry, namely in the field of production of metal components on a nickel basis, and also facilitate the testing of certain components due to its simplicity and high speed of production.
Unlimited freedom of design.
3D printing technology significantly expands the boundaries for creativity and relieves decorative art from traditional restrictions, giving industrial designers unrestricted freedom. Thanks to 3D printing technology, its simplicity and cost-effectiveness has made it possible to create something that previously seemed impossible or too expensive in production. This technology is ideal for small batches of products, as well as for personalized orders, it can be used in the production of furniture, sculpture, jewelry, collectible baubles, unique custom goods, decorative items for home furnishings and the hotel market, and much more.
Colleges and Universities.
Additive Technologies Ltd. has the opportunity to provide colleges and universities with 3D printers that will allow students to enter a new level of research and experimentation. The technology of 3D printing, implemented in the educational system / program, will help to prepare specialists of a completely different level, possessing practical knowledge in the field of industry, design and architecture, etc. already at the stage of studying, which will lead the state to a new stage of development.
The technology of 3D printing has a wide range of possibilities for application in such fields of energy as: oil and gas, extraction of minerals and in the field of renewable energy sources. Thanks to 3D technology, constructions, consisting of several parts, can be produced as an integral structure, what will increase its solidity and durability, the quality of the casting itself will be increased, stability and structural balance will be strengthened.
By implementing 3D printing technology, the power industry will be able to produce designs of any size in a much shorter time frame and at a lower cost due to a simplified casting process compared to the classical production method, and will also be able to easily change the design features of a construction in a digital CAD format.
Expanding opportunities to meet the growing needs of customers.
3D printing technology allows foundries to significantly simplify and accelerate the production process, save a lot on storage space thanks to the ability to store all samples in the form of digital 3D files, and significantly expand the range of products due to unlimited possibilities for creating products of different shapes and sizes. The introduction of this technology into the foundry industry will not be difficult, since it is able to work with all kinds of metals, including light metals, cast iron, non-ferrous metals and others.
Solid details that meet world standards of quality.
The parts used in heavy industry must correspond to the highest level, have solidity and durability, what requires a lot of time in production. Thanks to innovative 3D technology, heavy industry will have the opportunity to increase productivity, reducing time costs and increasing production efficiency, and simplifying the construction of certain parts through the use of digital equipment, which will also significantly reduce the percentage of defective goods in production. Thanks to the high productivity of 3D printing technology, it became possible to simplify and accelerate the process of manufacturing parts made of metals such as aluminum, copper, gray and malleable iron and magnesium. The introduction of this technology into the foundry industry will not be difficult, since it is able to work with all kinds of metals, including light metals, cast iron, non-ferrous metals and others.
Technologies of 3D printing are applicable in medicine due to unlimited possibilities of production of products of various shapes and sizes. Thanks to these advantages, as well as the ability to work with various materials such as metal, plastic, fiberglass and others, 3D technology is ideal for medical production in the field of prosthetics.
Improved quality of parts while reducing production waste.
Typically, parts of the filtration system, such as a metal filter, are subject to heavy load and wear, and are are made from several parts. Modern 3D technology makes it possible to produce parts of filtration systems in the form of one integral part, and also increases their deterioration resistance due to a wide range of materials used, what will lead to a significant reduction in production costs and increase its efficiency.
This technology, thanks to its flexibility, the highest productivity and the ability to work with various types of materials, can improve productivity and efficiency in such industries as mining, oil and gas production, water purification, ventilation, and in the chemical industry.
High-precision performance with increased productivity.
3D printing technology allows to significantly speed up and increase the efficiency of production in the pumping industry thanks to the ability to design complex components of the pumping system, such as paddles, in digital 3D file format, what also significantly reduces the cost of storage / storage of models, because all samples and models can be stored In digital format. Also, this technology expands the production capabilities of prototypes in the pumping industry, as it increases the production speed and greatly facilitates the design and casting process due to the rich digital 3D capabilities.
The kitchen and bathroom accessories
The production of kitchen and bathroom accessories opens up wide opportunities for 3D printing technology, as it abounds with various metal and plastic elements. Thanks to this technology, it becomes possible to produce a wide range of products from bathroom cabinets and water faucets to baths and shower cabins in a shorter time and with greater economic efficiency.