TY - JOUR
AU1 - Getting, Ivan
AU2 - Chen, Ganglin
AU3 - Brown, Jennifer
AB - Uniaxial compressive stress-strain curves have been measured on a suite of 26 commercial grades of tungsten carbide cermets and three maraging steels of interest for use in high-pressure apparatus. Tests were conducted on cylindrical specimens with a length to diameter ratio of two. Load was applied to the specimens by tungsten carbide anvils padded by extrudable lead disks. Interference fit binding rings of maraging steel were pressed on to the ends of the specimens to inhibit premature corner fractures. Bonded resistance strain gages were used to measure both axial and tangential strains. Deformation was exremely uniform in the central, gauged portion of the specimens. Tests were conducted at a constant engineering strain rate of 1×10−5s−1. The composition of the specimens was principally WC/Co with minor amounts of other carbides in some cases. The Co weight fraction ranged from 2 to 15%. Observed compressive strengths ranged from about 4 to just above 8 GPa. Axial strain amplitude at failure varied from ∼1.5% to ∼9%. Representative stress-strain curves and a ranking of the grades in terms of yield strength and strain at failure are presented. A power law strain hardening relation and the Ramberg-Osgood stress-strain equation were fit to the data. Fits were very good for both functions to axial strain amplitudes of about 2%. The failure of these established functions is accompanied by an abrupt change in the trend of volumetric strain consistent with the onset of substantial microcrack volume.
TI - The strength and rheology of commercial tungsten carbide cermets used in high-pressure apparatus
JF - Pure and Applied Geophysics
DO - 10.1007/BF00998345
DA - 2005-01-03
UR - https://www.deepdyve.com/lp/springer-journals/the-strength-and-rheology-of-commercial-tungsten-carbide-cermets-used-nAoewlSf0v
SP - 545
EP - 577
VL - 141
IS - 4
DP - DeepDyve
ER -