14 min listen
QDD Redux Ep. 2: How to Handle Competing Failure Modes
QDD Redux Ep. 2: How to Handle Competing Failure Modes
ratings:
Length:
9 minutes
Released:
Apr 12, 2023
Format:
Podcast episode
Description
In this special episode of Quality during Design Redux, we're pulling episodes from our archive about test results analysis. In our Season 1 - Episode 93 titled "The Fundamental Thing to Know from Statistics for Design Engineering", we talked about hypothesis testing: how it is used for lots of data analysis techniques. The next 4 episodes of this QDD Redux are taking the next steps._________________________________________If we're not careful with or ignore failure modes, we can choose the wrong reliability model or statistical distribution. If our product performance is close to the required limits and/or we need a very accurate model, this could be a big problem.We talk about the importance of failure modes and step-through a tensile-test example to explore these other topics:competing failure modessuspensionsindependent vs. dependentreliability block diagramsThe podcast blog includes extra useful information/links.Support the show**FREE RESOURCES**Quality during Design engineering and new product development is actionable. It's also a mindset. Subscribe for consistency, inspiration, and ideas at www.qualityduringdesign.com. About meDianna Deeney helps product designers work with their cross-functional team to reduce concept design time and increase product success, using quality and reliability methods. She consults with businesses to incorporate quality within their product development processes. She also coaches individuals in using Quality during Design for their projects.She founded Quality during Design through her company Deeney Enterprises, LLC. Her vision is a world of products that are easy to use, dependable, and safe – possible by using Quality during Design engineering and product development.
Released:
Apr 12, 2023
Format:
Podcast episode
Titles in the series (100)
How to choose the right improvement model. by Quality during Design