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Estimated reading time: 2 minutes
Protecting PCBs from Harsh, Challenging Environments
Last month, I began my new series of columns on resins by selecting five frequently asked questions from our customers regarding resin chemistries and properties, and typical resin applications and their limitations. This month, I’m taking this introduction a step further by listing what I believe are the top five tips for circuit designers and manufacturers who seek to ensure that the reliability and longevity of their electronic assemblies and products are fully addressed.
1. Think very carefully about the sort of environment your PCB is likely to encounter. It is easy to over-engineer a product so that it will survive the very worst of conditions, but worst conditions may only be fleeting or transient. Therefore, a resin solution with a lower temperature performance specification will often cope. Take temperature extremes, for example. Your application may experience occasional temperature spikes of up to 180°C, which you might feel deserves treatment with a special resin. However, such excursions may only be short-lived; under normal operating conditions, the PCB might only be subjected to a maximum temperature of, say, 120°C, opening a wider choice of resin types and methods of application.
In a similar way, the required chemical resistance of your chosen resin will depend on the duration and/or extent of the chemical contamination. For example, there is a considerable difference in terms of the extent of chemical damage between a thin layer of a contaminating chemical on the resin surface that is wiped off within five minutes and 500ml of chemical present on the resin surface for one hour or more—let alone complete immersion! Furthermore, the range of chemicals that a PCB might eventually be exposed to is often quite limited, and almost certainly not the broad range that is frequently listed at the design stage, just to be on the safe side.
2. Environmental factors that normally affect a PCB are temperature, chemical attack, physical shock (vibration) and thermal shock; the trick is to decide which of these is likely to have the greatest impact upon your PCB and then concentrate on making an appropriate resin choice. Each of the three main resin types (epoxy, polyurethane and silicone) have strengths and weaknesses.
Silicone resins have the broadest continuous operating temperature range of any of the resin chemistries, so they are a natural choice for both high- and low-temperature applications, as well as those subject to thermal shock. They also maintain their flexibility over this temperature range with very little sign of degradation over time. On the downside, silicones have poor adhesion on certain substrates and their chemical resistance is not as good as that provided by an epoxy resin.
To read this entire column, which appeared in the May 2018 issue of Design007 Magazine, click here.
More Columns from Sensible Design
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Sensible Design: Encapsulation Resins—PU vs. Epoxy
Sensible Design: Avoiding Conformal Coating Pitfalls
Sensible Design: Comparing Traditional and Bio-based Resins
Sensible Design: All Resins Are Not Created Equal
Sensible Design: Can Solvent-free UV-cure Coatings Increase Stability and Throughput?
Sensible Design: Optimize Your Thermal Management