Ott C, Drummer D (2022)
Publication Type: Journal article
Publication year: 2022
DOI: 10.1515/polyeng-2022-0150
The direct encapsulation of electronic components is an effective way of protecting components against external influences. In addition to achieving a sufficient protective effect, there are two other big challenges for satisfying the increasing demand for encapsulated circuit boards. The encapsulation process should be both suitable for mass production and offer a low component load. Injection molding is a method with good suitability for large series production but also with typically high component stress. In this article, two aims were pursued: first, the development of a calculation model that allows an estimation of the occurring forces based on process variables and material parameters. Second, the evaluation of a new approach for stress reduction by means of thermoplastic foam injection molding. For this purpose, simulation-based process data was generated with the Moldflow simulation tool. Based on this, component stresses were calculated with the calculation model. The suitability of the new approach was clearly demonstrated and a significant reduction in shear forces during overmolding was achieved. It was possible to demonstrate a process development that makes it possible to meet the two main requirements of direct encapsulation in addition to a high protective effect.
APA:
Ott, C., & Drummer, D. (2022). Reducing component stress during encapsulation of electronics: a simulative examination of thermoplastic foam injection molding. Journal of Polymer Engineering. https://dx.doi.org/10.1515/polyeng-2022-0150
MLA:
Ott, Constantin, and Dietmar Drummer. "Reducing component stress during encapsulation of electronics: a simulative examination of thermoplastic foam injection molding." Journal of Polymer Engineering (2022).
BibTeX: Download