Measurement

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We discuss the basics of calibration, its importance, the different methods used for calibration, and the latest developments.

How new optical sensors work and how they might be used to address critical needs for part qualification and process control in precision manufacturing applications.

When air gaging was introduced, it provided the first high-performance 50u”/1um or better gaging on the shop floor. In fact, air gaging provided two breakthroughs for dimensional measurement.

Over the years, color quality control has evolved significantly, driven by advances in technology and changing industry needs.

Accurate quality assessment is crucial for manufacturers aiming to deliver products that meet or exceed customer expectations. However, ensuring precise measurements within a manufacturing process can be challenging.

Imagine your task for this week is to develop a hand tool gaging solution for a large rotor with an ID of nearly 400mm. Given the size and the large diameter, it is unlikely the part can be brought to a gage or even a CMM for an in-process check.

What level of quality do you feel is required in orthopedic implants, pacemakers and other critical, life-sustaining medical devices? The highest quality, of course!

How can aerospace parts manufacturers meet demands for lightweight, precise parts and components that are durable and temperature-resistant while complying with stringent regulatory requirements? High-quality aerospace parts need high-quality industrial metrology solutions.

Manufacturers have big expectations for electrical connectors — they want devices with even smaller, more complex and custom-tailored features. Why has this transformation accelerated over the last decade?

In order to determine which type of gage is best for shaft inspection, various aspects of shaft production and features need to be considered.