Measurement Uncertainty | Metrology Matters

Productivity Quality

21 Nov 202204:07

Summary

TLDRThis script delves into the intricacies of measuring an aluminum part's diameter, highlighting the challenges of achieving exactness due to inherent measurement uncertainty. It explains the concepts of repeatability and reproducibility through GR&R studies, emphasizing the difference between precision and accuracy. The importance of adhering to standards, such as ASME B89.7, is underscored to manage uncertainty effectively. The script concludes with a practical example of how environmental factors and handling can significantly impact measurement outcomes, advocating for a deeper understanding of these uncertainties.

Takeaways

📏 The script discusses the challenge of measuring the exact diameter of an aluminum part due to inherent measurement uncertainty.
🔍 Two different tools provided measurements with different levels of precision, showcasing the variability in measurement results.
🤔 It's impossible to ascertain the true exact value of a measurement due to the limitations of measurement methods and tools.
🔬 The concept of measurement uncertainty is introduced as the gap between the true value and the measured value.
📈 The GR&R (Gauge Repeatability and Reproducibility) study is mentioned as a method to estimate measurement repeatability but not accuracy.
🎯 The goal of measurement is to achieve both high accuracy (closeness to the true value) and precision (consistency of repeated measurements).
🛠️ Sophisticated technology can help in reducing measurement uncertainty by allowing for more precise measurements.
📚 The importance of following strict standards in metrology is emphasized for managing uncertainty effectively.
📋 Standards like ASME B89.7 provide guidance on managing uncertainty, including measurement planning and estimating risks.
🔄 Factors contributing to measurement uncertainty include the environment, equipment, setup, and the object being measured, among others.
🧠 Understanding the sources of uncertainty is crucial for having confidence in the accuracy of reported measurements.

Q & A

What is the main challenge in measuring the diameter of an aluminum part accurately?
-The main challenge is that no measurement method can find the exact true value due to the inherent measurement uncertainty. Even with precise tools, there's always room for even closer approximation.
What is meant by 'measurement uncertainty'?
-Measurement uncertainty refers to the dispersion of measured values around the actual measure. It's the gap between the true value of a dimension and the measured value that can be obtained.
What does GR&R stand for and what is its purpose in measurement?
-GR&R stands for Gauge Repeatability and Reproducibility. It is a study where different operators measure the same parts repeatedly to estimate the repeatability of the measurement process, but it doesn't necessarily indicate accuracy.
Why is it important to have both accuracy and precision in measurements?
-Accuracy ensures that measurements are close to the true value, while precision ensures that repeated measurements are consistent and close together. Both are necessary to reduce measurement uncertainty.
How does technology contribute to reducing measurement uncertainty?
-Sophisticated technology allows for more precise measurements, generally meaning that instruments capable of measuring smaller units are likely to have less deviation from the correct value.
What role do standards play in managing measurement uncertainty?
-Standards, such as those created by the American Society of Mechanical Engineers, provide guidance for managing uncertainty by addressing measurement planning, estimating uncertainty, and traceability, among other considerations.
What are some factors that can cause measurement uncertainty?
-Factors include the environment, reference elements, measurement equipment, setup, software, calculations, the object being measured, how the target characteristic is defined, and physical constants, among others.
Why is it useful to be certain about measurement uncertainty?
-Being certain about measurement uncertainty gives more confidence in the accuracy of reported measurements, as it provides a concrete understanding of how and why measurements may be inaccurate.
How does the material's property, such as aluminum's expansion rate, affect measurement uncertainty?
-Material properties like expansion can significantly affect measurement uncertainty. For example, aluminum's expansion rate can change its size with temperature, potentially increasing the uncertainty if not accounted for.
What additional measurement considerations are mentioned in the script that could affect uncertainty?
-The script mentions the need to consider the object's roundness and the importance of reviewing the measurement process, which can also contribute to uncertainty if not properly addressed.
How does the script illustrate the concept of repeatability versus accuracy?
-The script illustrates this by showing that even if a measurement method is highly repeatable (consistently hitting the same value), it can still be inaccurate if those values are not close to the true value.