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Evaluating Hearing Protection Comfort Through Computer Modeling

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People are less likely to wear hearing protection that is uncomfortable. The overall comfort of the hearing protection is therefore a primary design feature. Methods for evaluating comfort typically include production and use testing of physical prototypes which are expensive and time consuming which reduces the number of design options to test. This work demonstrates the use of computer modeling to predict wearer discomfort by modeling the interaction between ear protection devices and the human ear.
Obtaining an optimal comfort design is challenging because of large variations in human ear shape and complicated material behavior in both ear canal and ear plug. Generating a set of human ear models required the use of large and small scale 3D scanning technologies to create geometries representing both external and internal structures. Multiple material layers were used to approximate the actual layers in the region.
The model simulated the insertion and stress relaxation of the hearing protection devices. Results from these models were compared against discomfort measured in use. The model results show that discomfort is a function of contact pressure and area. Average contact pressure and total contact force were identified as the key metrics that correlate to comfort ratings from the use studies

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