The process of analyzing the design, composition and the manufacturing
method of an object using different methods like manual measurement or
high-quality 3D scanners in order to develop 3D CAD files of those objects and finally generate 2D engineering drawings that are used for manufacturing. Read More >
The process of analyzing the design, composition and the manufacturing method of an object using different methods like manual measurement or high-quality 3D scanners in order to develop 3D CAD files of those objects and finally generate 2D engineering drawings that are used for manufacturing. Read More >
The 2D engineering drawings are generated, checked and approved by a qualified team of engineers against ASME 14.7 standards to ensure all measurements and GD&Ts are clearly represented as required by machine operators to manufacture parts.
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DarTec relies on its local and international 3D printing partners to manufacture mechanical spare parts where DarTec’s team is involved in all 3D printing steps to ensure compliance with the required specifications
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The scanning process captures the internal and external geometry of the parts at high accuracies to ensure precision manufacturing.
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DarTec relies on its local manufacturing partners to manufacture mechanical
spare parts using the reverse engineering package developed by DarTec
engineering team.
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DarTec relies on its local manufacturing partners to manufacture mechanical
spare parts using the reverse engineering package developed by DarTec engineering team.
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Scanned files are processed by converting raw data (Point Cloud) into Mesh; then into usable CAD data that can be exported in multiple file formats.
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Manufactured parts are inspected by 3D scanning and digitally overlapping them with the original part to ensure acceptable tolerances at critical features. This information is documented in a detailed inspection report that includes all requested tests and specifications.
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