Basic Research on Liquid-drop-impact Erosion |
Contents
Liquid Drop or Solid Sphere | 3 |
Derivation of the Cratering Equations | 14 |
Section | 16 |
4 other sections not shown
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Common terms and phrases
0.2 percent offset acoustic impedance aged Udimet 700 aluminum Armco Iron calculated Cent Offset cm/sec Crater Depth crater-depth-versus-velocity plots cratering curve Cratering Data Obtained craters produced Curve fitting Data for Impacts DATA POINTS CONSIDERED data points obtained denting velocity dynamic yield strength electrolytic tough pitch energy per unit Evendale F-ratio fall height firings given in Table grain Hardness Numbers impact crater Impact Velocity Impacts of Steel indicates that curvature intercept velocity lattice packing Linear Best-Fit Equation low-velocity measured mercury drops nickel offset yield strength percent offset yield plastic flow Poisson's ratio pure metal ratio Results of Statistical sec/cm Section selected metals SLOPE OF LINE solutioned Udimet 700 sound speed specimen plate Sphere Diameter standard deviation Statistical Analysis steel spheres stress-strain curves surface tantalum target metal target plate temperature Theoretical Curves tough pitch copper Udimet 700 Aged Udimet 700 alloy Value Found 95 VELOCITY INTERCEPT work-hardening Young's modulus zinc