The main task of 3D modeling is the idea of a future object because, in order to release any object, you need a clear understanding of its design features in the smallest detail for subsequent reproduction in industrial design or architecture.
3D modeling, why is it needed? The basis is taken from the completed model of the future object from the sketch to the final 3D model. Three-dimensional modeling has several advantages and a pleasant feature, at an early stage, to receive a realistic and detailed representation of the future 3D model that possibly exists only at the drawing stage or even easier at the idea stage. Thus, we have the opportunity to move from an idea to a deeper design and recreation of the final result.
3D Modeling in Production Industry
Industrial 3D modeling is always performed based on the technical assignment issued by the customer. Including the 3D modeling section in the assignment, the customer specifies the level of detail and the number of options with different textures or colors.
Carrying out three-dimensional modeling of objects, the designer gives an idea of both individual models of parts and their positioning and functioning as part of a product complex. 3D models of components, being part of the working project, show the final version of the finished product (exterior or interior).
The design of engineering systems in 3D modeling programs solves the problem of automating labor-intensive processes, for example, such as creating working drawings of linearly elongated objects.
3D modeling tools are used to design and test parts of various devices, mechanisms, including high-tech ones. Having printed them on a printer in full size and tested, the designers can start factory production. Three-dimensional technologies are in great demand in the automotive industry, where 3D models of not only parts but also car bodies are created. This is the only way to bring innovations and advanced solutions to the market.
The aerospace industry is one of the most promising industries for the implementation of 3D technologies. Already today, 3D design, 3D scanning, and 3D printing are helping to solve vital problems for the industry:
- reducing the weight of aircraft
- creation of products with unique properties and geometrically complex details such asairfield pavements
- reduction of the production cycle and costs
- saving materials and equipment
The use of 3D printers in aviation is effective primarily in the manufacture of prototypes, tooling, and master models for casting. 3D printing of finished metal products, which will become serial in the near future, has great prospects.
In terms of 3D scanning, this advanced technology saves time and facilitates reverse engineering, product and tool geometry inspection, and aircraft operational inspection.
Realistic, high-resolution 3D color models help you evaluate the appearance of the final product. The creation of such products is made possible by the technology of full-color inkjet 3D printing, which allows you to create demonstration samples during the design and redesign of consumer products, containers and packaging.
Another 3D printing technology, stereolithography, is effectively used to solve this problem due to the unique characteristics of photopolymer materials. Products made from photopolymers can have different colors, be elastic and rigid, matte and transparent, heat-resistant, biocompatible, etc. By the way, by hiring a professional engineer who is good at 3D modeling, any marketing team can end up having the full presentation of a needed model.
3D technology has revolutionized medicine. With the help of 3D modeling, 3D scanning, and 3D printing, it became possible to create medical products that are maximally adapted to the individual characteristics of a person.
3D scanners and 3D printers in surgery and dentistry are common practice today. New technologies make it possible to make models of organs and bones, create 3D models and perform high-precision 3D printing of prostheses, implants, orthopedic insoles, and other products.
These innovations improve product reliability, save time, reduce manufacturing and end-product costs, and most importantly, save the lives of patients.
Three-dimensional technologies today solve various problems in construction and architecture, allowing us to speed up and simplify the design process.
3D modeling of buildings, structures, premises, monuments, and other objects helps to quickly convey ideas to the customer and make adjustments at any stage of the project.
If you are faced with the task of reconstructing or modernizing an object, developing technical documentation, or measuring the geometry of a building with high accuracy, you can get a 3D model using an industrial 3D scanner.
A 3D printer in architectural and construction projects makes it possible to quickly create realistic and accurate layouts of any architectural project. As a result, 3D modeling saves time and cost helping to solve many engineering problems. You can check solutions at Engre.co and make sure 3D technologies contribute to developing engineering solutions at all.