Technical Library | 2018-08-23 07:47:57.0
Simply put, the proper system design and use of vacuum in the potting process can make the difference between a mediocre part and a perfect part. Air entrapment is inevitable whether you utilize syringes, cartridges, pails, or drums of material in the process.
Technical Library | 2021-12-31 06:55:24.0
Any air entrapment in the potting compound can result in air bubbles that may cause performance problems in the finished component. Potting under vacuum is therefore frequently required to prevent air entrapment, especially with the increasingly small and complex assemblies required in today's electronics
Technical Library | 2021-12-31 06:56:02.0
Any air entrapment in the potting compound can result in air bubbles that may cause performance problems in the finished component. Potting under vacuum is therefore frequently required to prevent air entrapment, especially with the increasingly small and complex assemblies required in today's electronics
Technical Library | 2021-12-06 03:43:31.0
By potting under vacuum, components can be optimally protected from external influences. Before the potting process, air and moisture are removed from the components by vacuum. Components with geometries that are difficult to vent, coils, transformers or wound goods can be potting free of air bubbles. Potting under vacuum guarantees an even distribution of the potting material.
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