Spring Degradation: The heart of a Mechanical Hanging Scale is its spring mechanism. Over time and repeated use, these springs can experience a phenomenon known as "spring fatigue," where they lose their original tension and elasticity. This can lead to inaccurate readings and decreased precision.

Wear and Tear: The mechanical components within the scale undergo friction and wear as they move and interact during measurement. This can result in the gradual degradation of moving parts, affecting the overall functionality and accuracy of the scale.

Calibration Drift: Mechanical Hanging Scales require regular calibration to ensure accurate readings. With extended use, the components responsible for calibration, such as adjustment screws or zeroing mechanisms, may drift or become less effective, affecting the scale's accuracy.

External Factors: Environmental conditions and exposure to dust, moisture, and other elements can contribute to the wear and corrosion of the scale's components. This exposure can accelerate the changes observed in the scale's performance.

Gradual Inaccuracy: The combined effects of the aforementioned factors can lead to gradual inaccuracy in weight measurements. This can have serious implications for industries that rely on precise weight data for logistics, quality control, and financial transactions.