What are the optimal uses of blue light 3d scanners? Blue light 3d scanners are optimally used in applications where precision and high accuracy are of great significance. Blue LED light is used by the scanners to create high-resolution 3d models of objects, which have high resolution and capture minute surface details that are of great significance to a wide range of applications. In the manufacturing sector, for example, blue light 3d scanners are used intensively in inspection and quality control. The global 3d scanning market is anticipated to be worth USD 7.2 billion in size in 2026, a report by MarketsandMarkets shows, driven by increased uptake of 3d scanning technologies in sectors like the automotive and aerospace sectors. Blue light scanners find specific use in these industries since they have the ability to scan intricate geometries quickly and detect deviations from design specs in real time.
In the automotive industry, blue light 3d scanner aid engineers in making accurate measurements of car parts for design verification and reverse engineering. For example, Ford Motor Company uses the technology of 3d scanning in quality checking parts and assembly lines for quality assurance, which maximizes the production efficiency by up to 30%. Scanners are able to capture geometries of up to 0.02mm, hence they are appropriate for those parts that have detailed complexities such as engine components and transmission systems.
Blue light 3d scanners have also seen important applications in the medical field to produce precise digital models for orthotics and prosthetics. Materialise is one company that has integrated this technology into their process so that they can produce custom-made prosthetic limbs within a very short period of time. Scanners can take the exact measurements of the patient’s body part, which forms a basis for the highly personalized prosthesis. Applications in this area have minimized production cycles to a minimum and the ease and comfort of use of end products to a maximum.
Preservation of cultural heritage can also be greatly benefited by blue light 3d scanning. Museums and archaeological sites make use of this technology for digital preservation of monuments and artifacts. That it is able to capture detail without making contact with surfaces also means that objects can be preserved non-invasively, minimizing risks of damage to fragile objects. For example, blue light scanners are used by the British Museum to create highly accurate digital replicas of ancient objects, which can be studied and replicated without the original being handled.
Blue light 3d scanners are also extremely critical in the aerospace industry, where precision in component design and fabrication is paramount. NASA, for instance, uses 3d scanning both for reverse engineering and for streamlining the design of space components. The scanners can scan parts as diverse as aircraft fuselage and turbine blades, and they provide high-precision data that is critical when assembling complex systems. Blue light scanners’ ability to capture data quickly and with high accuracy reduces the time consumed for prototype development and testing.
Other than that, blue light 3d scanning is being used in the automotive aftermarket sector to create custom-fit parts. Tesla, for example, uses these types of scanners to create replacement parts for their vehicles, which have an exact fit with minimal or no alteration. With this reverse engineering, businesses can rapidly prototype and test new parts, which can reduce time-to-market by up to 40%.
In the consumer products sector, blue light 3d scanners are seeing increased use in product design and development. Companies in the fashion and footwear sectors, like Adidas, are using 3d scanning to produce custom-made shoes based on individual foot scans. Scanners offer the degree of precision that is unattainable with conventional methods of measurement, which improves product fit and reduces return rates. Adidas also reported a 15% decrease in return rates after integrating 3d scanning into their design workflow.
Should you wish to know more about blue light 3d scanning, you can find out more on the new technology at 3d scanner.