Fig. 1 Schematic illustrations of creep curves. (a) Strain versus time. (b) Creep strain rate versus time More

Fig. 14 Creep curves for C-129Y sheet in vacuum. C-129Y sheet, 1 mm (0.04 in.) thick, was annealed 1 h at 1315 °C (2400 °F) and tested in vacuum at 13 mPa (10 −4 torr). More

Fig. 17 Total creep curves for Cb-752 sheet. Data points represent material duplex annealed, then aged 1 h at 1595 °C (2900 °F). Dashed lines are for duplex-annealed material that did not undergo aging treatment. More

Fig. 28 Creep curves for coiled tungsten wires at 2500 °C (4530 °F) More

Fig. 5 Isometric tensile creep curves for unplasticized polyvinyl chloride at 20 °C (68 °F), 50% relative humidity More

Fig. 8 Schematic creep curves for alloys having low and high stress-rupture ductility, showing the increased safety margin provided by the alloy with high stress-rupture ductility. Source: Ref 10 More

Fig. 50 Schematic creep curves for alloys having low and high stress-rupture ductilities, showing the increased safety margin provided by the alloy with high stress-rupture ductility More

Fig. 4 Creep curves of alloy 2V tested at 980 °C (1800 °F) and 17.2 MPa (2500 psi). (a) Tests in argon and air for same duration. (b) Entire curve of specimen tested in air is shown. Filled square on both graphs represents same point. More

Fig. 13 (a) Typical family of creep curves taken at a constant temperature but different stresses. (b) Isometric curve constructed from family of creep curves at strain ε′. (c) Isochronous curve constructed from family of creep curves at time t ′. Source: Ref 12 More

Fig. 26 Isometric tensile creep curves for unplasticized polyvinyl chloride at 20 °C (68 °F), 50% relative humidity More

Fig. 4 Creep curves produced under constant-load and constant-stress conditions. Reprinted with permission from Wiley. Source: Ref 6 More

Fig. 9 Schematic creep curves for alloys having low and high stress-rupture ductility, showing the increased safety margin provided by the alloy with high stress-rupture ductility. Source: Ref 18 More

Fig. 9 (a) Typical family of creep curves taken at a constant temperature but different stresses. (b) Isometric curve constructed from family of creep curves at strain, ε′. (c) Isochronous curve constructed from family of creep curves at time, t′ More

Fig. 14 Representation of (a) creep curves at different temperatures and (b) the shift process More

Fig. 6 Isometric tensile creep curves for unplasticized polyvinyl chloride at 20 °C (68 °F), 50% relative humidity More

Fig. 2 Schematic tension-creep curve showing the three stages of creep More

Fig. 1 Schematic of a creep curve exhibiting the three regimes: I, primary creep; II, secondary or steady-state creep; and III, tertiary creep More

Fig. 47 (a) Schematic tensile-creep curve showing the three stages of creep. (b) Creep curves showing no primary creep and no tertiary creep. More

Fig. 1 Schematic tension-creep curve showing the three stages of creep More

Fig. 49 Creep curve with minimum creep rate and point of inversion More