How Does 3D Scanning Work in Mill Liner Manufacturing?

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3D scanning technology has revolutionized numerous industries, including the manufacturing of mill liners, components crucial for protecting grinding mills and ensuring optimal milling efficiency. In the context of mill liner production, 3D scanning serves as a foundational technology for achieving precision, efficiency, and tailored solutions.

The process begins with the 3D scanning of a mill’s interior. This is typically conducted using laser scanners that provide detailed and accurate measurements of the mill’s geometry. The scanner emits laser beams that bounce off the mill surfaces, and the data collected is then used to create a precise 3D model of the mill’s interior.


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This model is crucial as it helps in understanding wear patterns, volume changes, and other critical factors that influence liner design.

Using the 3D model, engineers can design mill liners that fit perfectly with the existing structure. This tailored approach not only enhances the efficiency of the mill by ensuring minimal gaps and optimal coverage, it also extends the life of the mill by distributing the grinding stress more evenly. Furthermore, this technology allows for rapid prototyping and testing of different liner designs, facilitating innovation and improvements in mill liner technology.

Thus, 3D scanning in mill liner manufacturing leads to more accurate, efficient, and customized production, significantly enhancing the performance and longevity of grinding mills.

Watch the video above to learn more!.

How Does 3D Scanning Work in Mill Liner Manufacturing?


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