3D Scanning
What is 3D Scanning?
Reverse engineering speeds up the design process by creating digital copies of physical products, while prototyping facilitates the testing of designs by enabling rapid prototyping with 3D scanning. Additionally, the use of 3D scanning in the production of spare parts for old machinery and product development processes can ensure the long-term and efficient operation of industrial equipment. In the areas of quality control and production improvement, 3D scanning can help to check the quality of produced parts and identify and solve errors in the production process, making production more efficient. As a result, 3D scanning plays an important role in production processes, contributing to the faster, more efficient, and higher quality production of products.
What is 3D Scanning?
3D scanning has a wide range of applications, not only in design and production processes but also in the preservation of cultural heritage, the development of personalized solutions in the medical field, and as visualization tools in education. Particularly in archaeology and museology, 3D scanning technology allows for the creation of digital twins of historical artifacts, facilitating their preservation, restoration, and wider accessibility. In the medical field, 3D scanning has become an indispensable tool for creating patient-specific prosthetics, orthopedic solutions, and surgical planning. In education, 3D scanning enables students to better understand complex structures, greatly contributing to learning processes. Additionally, when integrated with virtual reality (VR) and augmented reality (AR) applications, 3D scanning offers innovative experiences in both industrial and consumer markets. In all these fields, 3D scanning, as part of digital transformation, brings the physical world into the digital realm, offering multi-dimensional data analysis and modeling opportunities.
