The effect of gauge misalignment on the measurement of lateral stress

Abstract

The evolution of the lateral component of stress during shock loading may be directly interrogated via embedded wire-element manganin pressure gauges. However, these gauges are an inherently invasive diagnostic, requiring target materials to be sectioned before insertion. Further, they inevitably possess a significant finite size; with typical active element widths of ca. 15 mm. Consequently, gauge insertion, typically within an encapsulating epoxy interlayer, can lead to some degree of misalignment. In order to quantify any effects of such experimental errors, the response of Vishay Micro- Measurements® T-gauges of type J2M-SS-580SF-025 was monitored in PMMA targets machined such that embedded gauges were deliberately misaligned to a known extent. In particular, an attempt was made to link the effects of misalignment on gauge response for misalignments introduced orthogonally to the impact axis. © 2012 American Institute of Physics.