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Enhancing Workpiece Precision and Efficiency Through CNC Machining Techniques

October 31, 2024

Enhancing Machining Efficiency and Accuracy in CNC Processes

In the realm of CNC machining, the approach to roughing and finishing processes plays a crucial role in determining the productivity and quality of the workpiece. During roughing, a larger cutting depth is employed to minimize the number of passes, thereby enhancing productivity. Conversely, finishing typically involves a smaller depth of cut to achieve superior surface quality. Achieving optimal machining accuracy and efficiency depends on various factors beyond the CNC machine itself, including the strategic setting of machining routes, appropriate tool selection, correct installation, judicious cutting parameters, and proficient programming skills. A holistic view of these elements is essential for successful machining operations.

Programming Skills

CNC programming stands as the foundational element of machining processes. The quality of the machining program directly influences the accuracy and efficiency of the final product. Key strategies for effective programming include:

  1. Utilizing Main Programs and Subroutines Effectively: In complex mold manufacturing, multiple identical shapes are often processed. By leveraging subroutines within the main program, operators can ensure consistent dimensions while improving processing efficiency through repeated calls to subroutines until the machining is complete.

  2. Minimizing Cumulative Errors: Incremental programming, which relies on previous segments as reference points, can lead to cumulative errors over time. To mitigate this, employing absolute programming allows each block to reference the workpiece's origin, thus reducing the potential for errors and enhancing machining accuracy.

Machining accuracy is defined by the actual geometric parameters of a part post-processing. While no machining method guarantees absolute precision, as long as the machining errors remain within the specified tolerances, the accuracy is deemed acceptable. The difference between the desired and actual parameters is termed machining error, which reflects the overall machining accuracy.

Strategies for Improving Machining Accuracy

  1. Adjusting the Process System:

    • Trial Cutting Adjustments: This method involves iterative cutting, measuring, and adjusting until the desired dimensions are achieved, suitable for small batch productions.
    • Pre-Adjustment Method: By adjusting the relative positions of the machine, fixture, workpiece, and tool in advance, this method enhances productivity and is ideal for mass production.
  2. Reducing Machine Tool Errors:

    • Improve bearing rotation accuracy by using high-precision bearings and ensuring the machining accuracy of components interacting with the bearings.
    • Implement appropriate preloading of rolling bearings to eliminate gaps and enhance stiffness.
  3. Minimizing Transmission Errors:

    • Limit the number of transmission components and ensure high transmission precision.
    • Utilize speed reduction mechanisms to maintain accuracy, particularly closer to the end of the transmission chain.
  4. Mitigating Tool Wear:

    • Regularly sharpen tools before they reach a critical wear stage.
    • Use appropriate cutting fluids to ensure sufficient lubrication.
  5. Addressing Process System Deformation:

    • Enhance the rigidity of the entire system, particularly the weaker links.
    • Control load variations to minimize deformation.
  6. Controlling Thermal Deformation:

    • Implement measures to reduce heat generation and maintain a balanced temperature field within the machine.
  7. Reducing Residual Stress:

    • Incorporate heat treatment processes to alleviate internal stresses and strategically arrange the machining processes.

These strategies collectively contribute to minimizing machining errors and enhancing the overall accuracy of the workpiece.

Establishing a Rational Processing Route

Setting an appropriate machining route and sequence is vital for optimizing machining programs. Considerations include the machining path and feeding methods. For instance, when CNC milling, selecting the right feeding method based on the workpiece's requirements can significantly influence both cutting precision and efficiency. When milling outer contours, the tool's cutting path should ideally follow the contour's extension to avoid leaving marks at junctions.

Tool Selection and Installation

The selection and installation of tools are paramount in both CNC and traditional machining. The tool must be easy to install and adjust while providing good rigidity, durability, and precision. In CNC machining centers, where tools are pre-stored and cannot be replaced during operation, careful selection is especially critical.

Choosing Cutting Parameters Wisely

Determining the cutting parameters is a fundamental aspect of the CNC machining process. Key cutting parameters include cutting speed, feed rate, and depth of cut. The general guideline is to use a larger depth of cut during roughing to reduce the number of passes and enhance productivity, while finishing operations should utilize a smaller depth of cut to achieve a finer surface quality.

By considering these factors and implementing effective strategies, manufacturers can significantly enhance the accuracy and efficiency of their CNC machining processes, leading to improved product quality and operational productivity.

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Author:

Ms. SU LAN RONG

ΗΛΕΚΤΡΟΝΙΚΗ ΔΙΕΥΘΥΝΣΗ:

susu@cn-tianhui.com

Phone/WhatsApp:

++86 13396680822

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Author:

Ms. SU LAN RONG

ΗΛΕΚΤΡΟΝΙΚΗ ΔΙΕΥΘΥΝΣΗ:

susu@cn-tianhui.com

Phone/WhatsApp:

++86 13396680822

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