Improve manufacturing defect detection using digital process signatures
Set more effective control limits on production tests using digital process signatures
Optimizing limits on your manufacturing test processes eliminates false failures and reduces the risk of giving bad parts a passing grade. This blog post discusses how to use digital process signatures to set more effective limits, more quickly, to produce higher quality parts, lower scrap/rework rates, and experience fewer recalls or warranty claims.
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Digital process signature analysis: The first step to Industry 4.0
Many manufacturers continue to focus on data collection rather than data utilization. They don't yet have the modern data analytics tools in place that will allow them to squeeze from their part data the actionable insight that is crucial to meeting Industry 4.0 benchmarks they are seeking for quality, yield and traceability. Learn why digital process signatures are your first step to meet Industry 4.0 objectives.
A more reliable weld test through data, without the need for destruction
The traditional approach to testing weld integrity is often destructive pull-test, with its shortcomings. Perfectly good assemblies may be ruined, while faulty ones can still slip through and be shipped for use. With digital process signature analysis, however, all the metrics that identify problems can measured to catch defective parts.
NVH Testing Part 2: Ensuring smooth cruising for wheelchair drive motors
John Perkins recaps a use case for noise, vibration and harshness (NVH) testing. A multi-channel sigPOD platform with a strategically located accelerometer helped a wheelchair manufacturer catch problems with motors and gearboxes during production to avoid warranty claims.
Skip the sound room: How to keep noise/vibration testing on the line
John Perkins discusses how an ICP-based accelerometer that’s connected to a test monitoring system can keep noise, vibration and harshness (NVH) testing on the factory floor and avoid the cost and complexity of having to use an anechoic chamber.