Search Results for tensile strength

Fig. 28 Comparison of short-time tensile strength and tensile strength/density ratio for titanium alloys, three classes of steel, and 2024-T86 aluminum alloy. Data are not included for annealed alloys with less than 10% elongation or heat-treated alloys with less than 5% elongation. More

Fig. 19 PBI tensile strength versus temperature using ASTM D 638 type V tensile bars with 5 min dwell time at temperature More

Fig. 17 Correlation of tensile strength and elongation at fracture in tensile bars obtained from the 0.28% Mn series of test castings. (a) Tensile strength. (b) Elongation. Test specimens were machined from the B bars, C bars, and 7.62 cm (3 in.) diameter test bars. Source: Ref 13 More

Fig. 6 Correlation of small punch tensile test and tensile strength data of various conventional and additive manufacturing (AM) materials. Adapted from Ref 25 More

Fig. 6 Immersion of tensile test specimens followed by tensile strength testing More

Fig. 8 Minimum tensile strength of low-strength titanium metals More

Fig. 6 Relation between tensile strength and yield strength for quenched and tempered steels. Source: Ref 1 More

Fig. 20 Ratio of alternating bend fatigue strength/tensile strength of FG, CG, and SG irons. Source: Ref 6 More

Fig. 18 Variation in room-temperature ultimate tensile strength and yield strength for aluminum-lithium alloy 2091 after holding at 130 °C (265 °F) at indicated times. Data for aluminum alloys 2024 and 7010 are included for comparison. More

Fig. 4 Age-hardening response curves for the tensile strength, yield strength, and elongation of C17200. (a) Annealed (TB00) temper. (b) Roll-hardened (TD04) temper More

Fig. 33 Yield strength and tensile strength versus percentage of ferrite for CF8 and CF8M alloys. Curves are mean values for 277 heats of CF8 and 62 heats of CF8M. More

Fig. 16 Difference in yield strength and ultimate tensile strength ratio (slope of curve) of malleable iron (A 47/A 220/Armasteel GM) and ductile iron (Lineair ductile EN 1563) More

Fig. 14 Relationship of shear strength to tensile strength More

Fig. 16 Relation between tensile strength and fatigue strength of smooth specimens and notched specimens More

Fig. 17 Relation between tensile strength and fatigue strength for various notch factors. Source: Ref 8 More

Fig. 1 Ratio of alternating bend fatigue strength/tensile strength of gray cast iron, compacted graphite iron, and spheroidal graphite (SG) iron (i.e., ductile iron). Statistical analysis of a number of experimental data allowed the calculation of a relationship between fatigue strength (FS More

Fig. 4 Relation between rotating-bending fatigue strength and tensile strength of iron, based on fatigue limit or failure in 10 7 cycles. Source: See Angus (1960) and Grover (1960) in “Selected References: Prior to 1980” More

Fig. 23 Relationships between the fatigue strength and tensile strength of some wrought aluminum alloys More

Fig. 1 Rotating bending fatigue strength vs. ultimate tensile strength of magnesium alloys (small smooth specimens). Source: Ref 2 More

Fig. 5 Yield strength and tensile strength versus percentage of ferrite for CF-8 and CF-8M alloys. Curves are mean values for 277 heats of CF-8 and 62 heats of CF-8M. Source: Ref 3 More