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About Project

Are you a racing enthusiast looking to elevate your performance and protect your valuable brake disc? Look no further than our precision-crafted CNC Milled Al7075 Racing Front Disc Guard. Designed to withstand the rigors of high-speed racing, this component offers exceptional durability and style.

Key Features

• Superior Material: Constructed from high-strength Al7075 aluminum alloy, this disc guard provides unmatched durability and lightweight design.
• Precision CNC Machining: Each guard is meticulously crafted using advanced CNC machining techniques, ensuring precise tolerances and a flawless finish.
• Enhanced Protection: The curved design and strategically placed holes effectively shield your brake disc from debris, rocks, and other potential hazards.
• Improved Aerodynamics: The streamlined shape of the guard helps to reduce drag and improve overall performance.
• Customizable Options: Available in various finishes and sizes to suit your specific needs and preferences.

The Benefits of CNC Machining

CNC machining is a versatile manufacturing process that allows for the creation of complex and intricate components with exceptional accuracy and precision. By utilizing CNC technology, we can produce racing disc guards that meet the demanding requirements of high-performance applications.

FacFox: Your Partner for Precision CNC Machining

At FacFox, we specialize in providing top-quality CNC machining services for the automotive industry. Our team of skilled engineers and technicians is dedicated to delivering products that exceed your expectations. Whether you need a single prototype or large-scale production, we have the capabilities to meet your needs.

Contact us today to learn more about our CNC machining services and how we can help you bring your racing ideas to life.

Solution

• Step 1: Material Selection. High-quality Al7075 aluminum alloy was chosen for its exceptional strength-to-weight ratio and corrosion resistance.
• Step 2: Design and Modeling. The disc guard design was created using CAD software, ensuring precise dimensions and intricate details.
• Step 3: CNC Programming. G-code instructions were generated based on the CAD model, specifying the cutting paths and parameters for the CNC machine.
• Step 4: Workpiece Preparation. The aluminum alloy was cut into appropriate blanks to serve as the starting material for the manufacturing process.
• Step 5: Clamping. The blanks were securely clamped onto the CNC machine’s worktable to ensure stability during machining.
• Step 6: Rough Machining. Initial roughing cuts were performed to remove excess material and create the basic shape of the disc guard.
• Step 7: Finishing Machining. Precise finishing cuts were made to achieve the desired tolerances, surface finish, and intricate details.
• Step 8: Hole Drilling. The necessary holes were drilled using a CNC drill press, ensuring accuracy and consistency.
• Step 9: Deburring. Any sharp edges or burrs were removed to ensure a smooth and safe finished product.
• Step 10: Inspection. The completed disc guards were inspected to verify that they met all quality standards and specifications.
• Step 11: Packaging. The finished products were packaged for shipping or storage.