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Cutting Thickness: The OMAX 80X can typically cut materials up to 6 inches thick, depending on the material type and specific setup.

  • Table Size: It features a cutting area of 160” by 80” , allowing for large sheets of material to be processed.

  • Cutting Speed: The speed can vary based on the material and thickness but is generally competitive, allowing for efficient processing.

  • Materials: see below

These specifications make the OMAX 80X suitable for various applications, including aerospace, automotive, and decorative work, providing high precision and a wide material range. Always consult the manufacturer's documentation for the most accurate and detailed specifications tailored to your specific use case.

  • Metals:

    • Steel:

      • Carbon Steel: Varying carbon content increases strength and hardness, typically can be cut up to 6 inches thick.

      • Alloy Steel: Contains elements like manganese, nickel, or chromium for enhanced properties; can be cut up to 6 inches thick.

      • Stainless Steel: Contains at least 10.5% chromium for high corrosion resistance (e.g., 304, 316), can also be cut up to 6 inches thick.

    • Aluminum:

      • Aluminum 6061: Versatile with good corrosion resistance and weldability; generally cut up to 6 inches thick.

      • Aluminum 7075: High strength-to-weight ratio, often used in aerospace; can be cut up to 6 inches thick.

      • Aluminum 2024: Excellent fatigue resistance for aircraft structures; typically cut up to 6 inches thick.

    • Copper:

      • Bronze: Copper and tin alloy, known for corrosion resistance, can be cut up to 6 inches thick.

      • Brass: Copper and zinc alloy, known for machinability and aesthetic appeal; can be cut up to 6 inches thick.

    • Titanium:

      • Ti-6Al-4V: High strength and low weight, used in aerospace and medical applications; can be cut up to 6 inches thick.

      • Ti-6Al-4V ELI: Lower oxygen content variant for improved ductility; typically cut up to 6 inches thick.

    • Nickel:

      • Inconel: Nickel-chromium superalloys that maintain strength at high temperatures; can be cut up to 6 inches thick.

      • Monel: Nickel and copper alloy, known for corrosion resistance in marine environments; typically cut up to 6 inches thick.

  • Stones:

    • Granite: Can be cut up to 6 inches thick.

    • Marble: Typically cut up to 6 inches thick.

    • Slate: Can be cut up to 6 inches thick.

    • Limestone: Generally cut up to 6 inches thick.

    • Quartz: Can be cut up to 6 inches thick.

  • Plastics:

    • Acrylic (PMMA): Usually cut up to 6 inches thick.

    • Polycarbonate: Can be cut up to 6 inches thick.

    • PVC: Typically cut up to 6 inches thick.

    • Nylon: Can be cut up to 6 inches thick.

    • Polyethylene: Generally cut up to 6 inches thick.

  • Composites:

    • Fiberglass: Can be cut up to 6 inches thick.

    • Carbon fiber: Typically cut up to 6 inches thick.

    • Kevlar: Can be cut up to 6 inches thick.

  • Glass:

    • Tempered glass: Generally cut up to 6 inches thick.

    • Laminated glass: Typically cut up to 6 inches thick.

    • Bottles: Can be cut up to 6 inches thick.

  • Foams:

    • Polyurethane: Usually cut up to 6 inches thick.

    • EPS (Expanded Polystyrene): Can be cut up to 6 inches thick.

    • Melamine foam: Generally cut up to 6 inches thick.

  • Rubber:

    • Natural rubber: Typically cut up to 6 inches thick.

    • Synthetic rubber: Can be cut up to 6 inches thick.

  • Wood:

    • Plywood: Generally cut up to 6 inches thick.

    • MDF (Medium-Density Fiberboard): Can be cut up to 6 inches thick.

    • Solid wood: Typically cut up to 6 inches thick.

  • Textiles:

    • Leather: Usually cut up to 6 inches thick.

    • Fabrics (canvas, nylon, etc.): Generally cut up to 6 inches thick.m below