Download This PaperDevelopment of Multi-Layered Graded Density Cu/Pmma for Controlled Stress and Strain Rate Behavior
21 Pages Posted: 12 Nov 2024
Abstract
In gas gun experiments, the research on material phase transitions under quasi–isentropic loading is limited by the accuracy of graded density impactors (GDIs) fabrication. Six types of GDIs of copper (Cu) and polymethyl methacrylate (PMMA) with different interlayer thicknesses and numbers are prepared by the processes of melt mixing and multi–step hot pressing. The interlayer minimum thickness is 50 μm, and the graded impactors are free of intermetallic compounds with excellent interlayer parallelism and flatness, offering considerable preparation accuracy. The GDIs are launched into a stationary LiF target using a one-stage light-gas gun at an impact velocity of 500 m/s with the measured target stress threshold from 1.58 to 3.28 GPa. The wave interactions analysis indicates that by varying the types of GDI structure, shock waves and reflected waves during the shocking process are influenced. Resulting in independent control of the frequency and fluctuation amplitude of strain rate at the range of 105 s-1, achieving precise control of strain rate. Holding significant interest for studying dynamic response of materials under quasi–isentropic loading with stress and strain rate controlled.
Keywords: Stress and strain rate control, Graded density impactors (GDIs), Precise fabrication, Multi-layered Cu/PMMA
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