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Bilateral Tolerance

Definition: Bilateral tolerance refers to a type of dimensional tolerance where the allowable deviation from a specified nominal size can be either above or below that size. It establishes two limits: one above and one below the basic size.

Detailed Description:

  1. Concept:
    • Nominal Size: The target or basic dimension of a part or feature.
    • Upper Limit: The maximum allowable dimension, which is the nominal size plus a positive tolerance.
    • Lower Limit: The minimum allowable dimension, which is the nominal size minus a negative tolerance.
  2. Notation:
    • Typically expressed in engineering drawings and specifications as ±X mm or ±X inches, where X represents the tolerance value.
    • Example: A dimension of 50 mm with a bilateral tolerance of ±0.5 mm means the acceptable range for the dimension is from 49.5 mm to 50.5 mm.
  3. Applications:
    • Manufacturing: Used in machining and assembly to ensure parts fit together correctly despite slight variations in size.
    • Quality Control: Helps in defining acceptable variations in part dimensions for quality assurance and control.
  4. Benefits:
    • Flexibility: Allows for some variation in part dimensions, making it easier to accommodate manufacturing processes and tolerances.
    • Fit and Function: Ensures that parts will still function properly and fit together within the specified tolerance range.
  5. Examples:
    • Mechanical Components: Commonly used for components such as shafts, holes, and bearings where precise fitting is crucial but slight deviations are acceptable.
    • Engineering Drawings: Specified in technical drawings to communicate the allowable dimensional variation.

Summary: Bilateral tolerance allows for dimensional variations both above and below a nominal size, providing flexibility in manufacturing and ensuring parts fit and function properly within the specified limits.

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