Abstract
As the level of engineering technology increases, the mechanical problems posed in the area of mechanics become complex and diverse. The traditional measurement methods and content of past measurements no longer meet the needs, so more advanced experimental methods are needed to accurately measure the three-dimensional shape of objects and their deformations. Nitrate ester plasticized polyether (NEPE) propellants, are the highest energy solid propellant that have been applied in public reports in the world. Due to the material properties of the material itself, its mechanical properties cannot be accurately measured by conventional methods. This paper proposes a simple and highly accurate optical measurement method to study the volume change rate, Poisson’s ratio and true stress-strain curves of NEPE at different displacement loading rates of NEPE. In this paper, the strain of solid propellant NEPE in three directions during unidirectional stretching was measured by defocusing method and digital image correlation(DIC) method and the volume change rate, Poisson’s ratio and true stress-strain curves of NEPE under different stretching rates were obtained. The measured damage initiation engineering strain of NEPE at different tensile strain rates is 0.4687.
Publisher
Public Library of Science (PLoS)
Reference38 articles.
1. Laser ion sources for time-of-flight mass spectrometry;U Boesl;International Journal of Mass Spectrometry and Ion Processes,1994
2. Real-time simulation of time-of-flight sensors.;M Keller;Simulation Modelling Practice and Theory,2009
3. Stereo-DIC uncertainty estimation using the epipolar constraint and optimized three camera triangulation.;R Balcaen;Experimental Techniques,2018
4. Stereo-DIC uncertainty quantification based on simulated images.;R Balcaen;Experimental Mechanics,2017