Fig. 5.1 Alloying elements in nickel-base superalloys. Beneficial minor elements are indicated by cross-hatching, while detrimental tramp elements are marked with horizontal lines. Source: Ref 1 More

Fig. 14.1 Fraction of alloying elements that dissolve as the austenitizing temperature is raised. Source: Ref 14.5 More

Fig. 3.4 Effects of several alloying elements on the yield strength of copper. Source: Ref 1 More

Fig. 8.5 Effects of alloying elements on cold-worked properties. Source: Ref 3 More

Fig. 10.3 Effect of alloying elements on yield strength. Source: Ref 2 More

Fig. 5 Effects of alloying elements on the properties of gray cast iron. Source: Ref 6 More

Fig. 20 Effect of alloying elements on the elevated-temperature behavior of ASTM class 40 gray irons tested at 540 °C (1000 °F) for 1000 h. (a) Stress vs. minimum creep rate. (b) Stress-rupture characteristics. Source: Ref 23 More

Fig. 2 Typical effects of alloying elements on depth of chill More

Fig. 27 Influence of alloying elements on the temper embrittlement of steels (compositions given in accompanying table) containing 600 to 800 ppm Sb. The left end of each bar gives the nonembrittled ductile-to-brittle transition temperature (DBTT); the right end of the bar gives the DBTT after More

Fig. 28 Influence of alloying elements on the temper embrittlement of steels (compositions given in accompanying tables). (a) Steel containing 500 to 600 ppm P. (b) Steel containing 460 to 480 ppm Sn. (c) Steel containing 500 to 530 ppm As. The left end of each bar gives the nonembrittled More

Fig. 3 Alloying elements used in nickel-base superalloys. The height of the element blocks indicates the amount that may be present. Beneficial trace elements are marked with cross hatching and harmful trace elements are marked with horizontal line hatching. More

Fig. 10 Creep strengthening effect of alloying elements in niobium at 1200 °C (2190 °F). Source: Ref 5 More

Fig. 12 Influence of alloying elements on the corrosion rate of binary tantalum alloys exposed 3 days to 95% H 2 SO 4 at 250 °C (480 °F). Source: Ref 9 More

Fig. 30 Effects of principal alloying elements on electrolytic solution potential of aluminum. Potentials are for high-purity binary alloys solution heat treated and quenched. Measured in a solution of 53 g/L NaCl plus 3 g/L H 2 O 2 maintained at 25 °C (77 °F) More

Fig. 2 Effect of alloying elements on the conductivity of oxygen-free high-conductivity copper More

Fig. 3 Effect of alloying elements on expansion characteristics of Fe-Ni alloys. (a) Displacement of nickel content caused by additions of manganese, chromium, copper, and carbon to alloy of minimum expansivity. (b) Change in value of minimum coefficient of expansion caused by additions More

Fig. 2 Effect of alloying elements on electrical resistivity of iron More

Fig. 3 Effect of alloying elements on room-temperature saturation induction of iron More

Fig. 4 Influence of alloying elements on uniform corrosion rate in 20% sodium chloride solution with carbon dioxide pressure of 20 MPa. Source: Ref 7 More