Aerospace

XTOP3D's XTOM blue light 3D scanner has powerful detail acquisition capabilities and can capture high-precision features. It can be used in aerospace product development and design, turbine blades, precision parts, forging and casting quality inspection, virtual assembly, and engine repair and maintenance to improve quality inspection efficiency.

3D scanning of aviation manufacturing parts, 3D inspection of turbine blades, precision parts inspection, aviation component development and design, virtual assembly, XTOP3D
  • Quality Inspection

    Quality Inspection

    Using the XTOM photographic blue light 3D scanner, you can quickly and accurately obtain 3D data of the aircraft parts' appearance and generate a 3D model. By comparing it with the CAD digital model, you can accurately detect defects such as part size deviation and shape deformation, ensuring that the accuracy of the parts meets design requirements.
  • Reverse Engineering

    Reverse Engineering

    The XTOM blue-light industrial-grade 3D scanner can accurately acquire 3D data on the surface of aircraft structural parts. Combined with professional reverse engineering software, it generates CDA models, accurately restores the current structural dimensions and construction status of structural parts, and effectively assists in secondary development and design modifications of products.
  • Maintenance

    Maintenance

    The XTOM photographic blue light 3D scanner can be used for wear analysis, damage analysis, and surface treatment of aircraft components. By comparing 3D scanning data with product digital models, a visual analysis report can be obtained, which can promptly identify worn areas and provide an accurate data basis for aircraft maintenance and repair.
Empowering Scenarios
  • The XTOM photographic blue light 3D scanner is used for reverse engineering of aircraft parts. It can accurately obtain 3D data of internal and external aircraft structures, generate CAD models in professional software, and completely restore the appearance data of fuselage structural parts to facilitate modification and innovation, or reverse design product drawings for processing.
    Product Design

    Product Design

  • The XTOM photographic blue light 3D scanner can be used to inspect turbine blades with complex shapes and diverse curves. It can clearly display the dimensional deviations of key parts, specify acceptable tolerance bands for manufacturing requirements, understand the difference between each part and the standard tolerance, and effectively control production quality.

    Turbine blade quality control

    Turbine blade quality control

  • The XTOM camera-based blue light 3D scanner can be used to obtain 3D digital models of parts from different manufacturers for virtual assembly. This helps to understand the matching degree of fuselage components, thereby improving the first-time success rate of the actual assembly process and helping aircraft manufacturers improve production efficiency and quality.
    Virtual Assembly

    Virtual Assembly

  • Throughout the engine production cycle, maintenance and repair costs are a significant expense factor. Using the XTOM photographic blue light 3D scanner, you can quickly inspect component wear and material deposition, enabling precise component repair.


    Engine maintenance

    Engine maintenance

    • Application Cases
    • Application of 3D optical measurement technology in aerospace product development and design
      Application of 3D optical measurement technology in aerospace product development and design
      Design optimization is a key step in the R&D process of aviation products. Xintuo 3D Blue Light 3D Scanner can quickly acquire 3D data of objects and generate high-precision digital models, completely restoring the structural dimensions of the fuselage and supporting facilities, laying the foundation for secondary development and design improvements of aircraft and their components.
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    • High-precision 3D scanners for quality control of aviation turbine blades
      High-precision 3D scanners for quality control of aviation turbine blades
      The XTOM 3D Photographic Scanner is a high-precision 3D optical scanner specifically developed and manufactured for industrial 3D scanning. It is suitable for full-scale digital processing of industrial inspection processes. The XTOM 3D Photographic Scanner offers high-precision detail measurement capabilities and industrial-grade stability, making it suitable for high-precision data measurement in a variety of harsh industrial environments.
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    • Industrial-grade blue light 3D scanners facilitate virtual assembly of precision aerospace parts
      Industrial-grade blue light 3D scanners facilitate virtual assembly of precision aerospace parts
      The XTOM 3D Photographic Scanner is a high-precision 3D optical scanner specifically developed and manufactured for industrial 3D scanning. It is suitable for full-scale digital processing of industrial inspection processes. The XTOM 3D Photographic Scanner offers high-precision detail measurement capabilities and industrial-grade stability, making it suitable for high-precision data measurement in a variety of harsh industrial environments.
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    • Blue light 3D scanner, high-precision 3D scanner, photo 3D scanner, industrial 3D scanner, fixed 3D scanner, education and research 3D scanner, full-size 3D inspection, automated 3D inspection
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