Search Results for compressive stress

Fig. 17 Changing tensile stress to compressive stress with sharp wheels and high work speed when grinding René 80 with an oil coolant. Source: Ref 5 More

Fig. 14 Effect of compressive stress on tubular punch More

Fig. 18 Tensile and compressive stress-strain curves for compacted graphite casting with 4.35 carbon equivalent. 0.1%, 0.2%, and 0.5% yield strengths are indicated. Proportionality limits are 201 MPa (29.1 ksi) in compression and 124 MPa (18 ksi) in tension. Source: Ref 3 More

Fig. 3 Maximum compressive stress, Δσ/2, versus cycles at a constant strain amplitude of Δε/2 = 0.75% for overaged Ni-14Al (at.%). Source: Ref 12 More

Fig. 41 Residual compressive stress measurements for contour-hardened and carburized gears from the Gear Research Institute study. Source: Ref 24 More

Fig. 20 Fading of surface compressive stress induced with a number of fretting cycles by shot peening More

Fig. 3 The effect of axial compressive stress on the shear strain at fracture in torsion for various steels. Source: Ref 3 More

Fig. 18 Compressive stress-strain curve for sintered, unfilled PBI More

Fig. 28 (a) Fading of surface compressive stress induced with a number of fretting cycles by shot peening. Adapted from Ref 93 . (b) Evolution of fretting fatigue endurance (cracking failure) as a function of fatigue stress for constant partial slip fretting loading ( P = Cst, Q * = Cst More

Fig. 18 Influence of compressive stress on elastic properties of gray iron. Courtesy of American Foundry Society. Source: Ref 3 , 28 More

Fig. 17 Compressive stress-strain curves of otherwise identical AA 6061 foams of 0.6 g/cm 3 density after different heat treatments: as-foamed without further heat treatment, annealed (T4 treatment), and precipitation hardened (T6 treatment). Adapted from Ref 57 More

Fig. 19 Compressive stress-strain curves of Al-7Si foams of similar density tested at different strain rates (qualitative comparison). (a) Quasi-static (strain rate < 1 s −1 ) versus drop tower impact testing (strain rate < 100 s −1 ). (b) Quasi-static (strain rate < 1 s −1 ) versus More

Fig. 10 Nominal compressive stress curves of polychlorotrifluoroethylene at various pressures. Source: Ref 58 More

Fig. 24 Cyclic compressive stress versus strain curves for laser-engineered net-shaping-processed and solution-treated (a) Ti-14Nb, (b) Ti-19Nb, and (c) Ti-23Nb alloys. Source: Ref 210 More

Fig. 19 Effect of shear-compression stress ratio on the compressive strength and deformability of titanium alloy Ti-62222Si with initial strain rate of about 2 × 10 2 s −1 More

Fig. 20 Impact crater area versus compressive residual stress for impacts normal to the lay and compressive stresses perpendicular to the grinding direction (■) and for impacts perpendicular to the lay and compressive stresses parallel to the grinding direction (●), using sintered reaction More

Fig. 18 Impact crater area vs. compressive residual stress for impacts normal to the lay and compressive stresses perpendicular to the grinding direction (○), and for impacts perpendicular to the lay and compressive stresses parallel to the grinding direction (●), using sintered reaction More

Fig. 28 Illustration of the compressive stresses developing in the elements at the rim of circular blank drawn into a circular cup. TD, transverse direction; RD, rolling direction More

Fig. 47 Residual compressive stresses in 7010-W Jominy end quench specimens as a function of distance from the quenched end. Source: Ref 169 More

Fig. 1 Circumferential tension and axial compression stresses at the equator of an upset cylinder More