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<xr id="fig:Strain hardening of Ag bei cold working"/><!--Fig. 2.45:-->Strain hardening of Ag 99.95 by cold working
<xr id="fig:Softening of Ag after annealing after different degrees"/><!--Fig. 2.46:-->Softening of Ag 99.95 after annealing for 1 hr after different degrees of strain hardening
</figtable>
<xr id="fig:Influence of 1 10 atom of different alloying metals"/><!--Fig. 2.47:-->Influence of 1-10 atom% of different alloying metals on the electrical resistivity of silver
<xr id="fig:Electrical resistivity p of AgCu alloys"/><!--Fig. 2.48:-->Electrical resistivity p of AgCu alloys
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<xr id="fig:Phase diagram of silver copper"/><!--Fig. 2.52:-->Phase diagram of silver-copper
<xr id="fig:Phase diagram of silver cadmium"/><!--Fig. 2.53:-->Phase diagram of silver-cadmium
<xr id="fig:Strain hardening of AgCu3 by cold working"/><!--Fig. 2.54:-->Strain hardening of AgCu3 by cold working
<xr id="fig:Softening of AgCu3 after annealing"/><!--Fig. 2.55:-->Softening of AgCu3 after annealing for 1 hr after 80% cold working
<xr id="fig:Strain hardening of AgCu5 by cold working"/><!--Fig. 2.56:-->Strain hardening of AgCu5 by cold working
<xr id="fig:Softening of AgCu5 after annealing"/><!--Fig. 2.57:-->Softening of AgCu5 after annealing for 1 hr after 80% cold working
<xr id="fig:Strain hardening of AgCu 10 by cold working"/><!--Fig. 2.58:-->Strain hardening of AgCu 10 by cold working
<xr id="fig:Softening of AgCu10 after annealing"/><!--Fig. 2.59:-->Softening of AgCu10 after annealing for 1 hr after 80% cold working
<xr id="fig:Strain hardening of AgCu28 by cold working"/><!--Fig. 2.60:-->Strain hardening of AgCu28 by cold working
<xr id="fig:Softening of AgCu28 after annealing"/><!--Fig. 2.61:-->Softening of AgCu28 after annealing for 1 hr after 80% cold working
<xr id="fig:Strain hardening of AgNiO15 by cold working"/><!--Fig. 2.62:-->Strain hardening of AgNi0.15 by cold working
<xr id="fig:Softening of AgNiO15 after annealing"/><!--Fig. 2.63:-->Softening of AgNi0.15 after annealing for 1 hr after 80% cold working
<xr id="fig:Strain hardening of ARGODUR 27"/><!--Fig. 2.64:-->Strain hardening of ARGODUR 27 by cold working
<xr id="fig:Softening of ARGODUR 27 after annealing"/><!--Fig. 2.65:-->Softening of ARGODUR 27 after annealing for 1 hr after 80% cold working
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<xr id="fig:Phase diagram of silver palladium"/><!--Fig. 2.66:-->Phase diagram of silver-palladium
<xr id="fig:Strain hardening of AgPd30 by cold working"/><!--Fig. 2.67:-->Strain hardening of AgPd30 by cold working
<xr id="fig:Strain hardening of AgPd50 by cold working"/><!--Fig. 2.68:-->Strain hardening of AgPd50 by cold working
<xr id="fig:Strain hardening of AgPd30Cu5 by cold working"/><!--Fig. 2.69:-->Strain hardening of AgPd30Cu5 by cold working
<xr id="fig:Softening of AgPd30 AgPd50 AgPd30Cu5"/><!--Fig. 2.70:-->Softening of AgPd30, AgPd50, and AgPd30Cu5 after annealing of 1 hr after 80% cold working
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<figtable id="tab:Physical Properties of Silver-Palladium Alloys">
<caption>'''<!--Table 2.17:-->Physical Properties of Silver-Palladium Alloys'''</caption>
{| class="twocolortable" style="text-align: left; font-size: 12px"
<xr id="fig:Strain hardening of AgNi9010 by cold working"/> <!--Fig. 2.71: --> Strain hardening of Ag/Ni 90/10 by cold working
<xr id="fig:Softening of AgNi9010 after annealing"/> <!--Fig. 2.72: --> Softening of Ag/Ni 90/10 after annealing for 1 hr after 80% cold working
<xr id="fig:Strain hardening of AgNi8020"/> <!--Fig. 2.73: --> Strain hardening of Ag/Ni 80/20 by cold working
<xr id="fig:Softening of AgNi8020 after annealing"/> <!--Fig. 2.74: --> Softening of Ag/Ni 80/20 after annealing for 1 hr after 80% cold working
<xr id="fig:Micro structure of AgNi9010"/> <!--Fig. 2.75: --> Micro structure of Ag/Ni 90/10 a) perpendicular to the extrusion direction b) parallel to the extrusion direction
<xr id="fig:Micro structure of AgNi 8020"/> <!--Fig. 2.76: --> Micro structure of Ag/Ni 80/20 a) perpendicular to the extrusion direction b) parallel t o the extrusion direction
Using different silver powders and minor additives for the basic Ag and CdO starting materials can help influence certain contact properties for specialized applications.
<xr id="fig:Strain hardening of internally oxidized AgCdO9010"/> <!--Fig. 2.77: --> Strain hardening of internally oxidized Ag/CdO 90/10 by cold working
<xr id="fig:Softening of internally oxidized AgCdO9010"/> <!--Fig. 2.78: --> Softening of internally oxidized Ag/CdO 90/10 after annealing for 1 hr after 40% cold working
<xr id="fig:Strain hardening of AgCdO9010P"/> <!--Fig. 2.79: --> Strain hardening of Ag/CdO 90/10 P by cold working
<xr id="fig:Softening of AgCdO9010P after annealing"/> <!--Fig. 2.80: --> Softening of Ag/CdO 90/10 P after annealing for 1 hr after 40% cold working
<xr id="fig:Strain hardening of AgCdO8812"/> <!--Fig. 2.81: --> Strain hardening of Ag/CdO 88/12 WP
<xr id="fig:Softening of AgCdO8812WP after annealing"/> <!--Fig. 2.82: --> Softening of Ag/CdO 88/12WP after annealing for 1 hr after different degrees of cold working
<xr id="fig:Micro structure of AgCdO9010"/> <!--Fig. 2.83: --> Micro structure of Ag/CdO 90/10 i.o. a) close to surface b) in center area
<xr id="fig:Micro structure of AgCdO9010P"/> <!--Fig. 2.84: --> Micro structure of Ag/CdO 90/10 P: a) perpendicular to extrusion direction b) parallel to extrusion direction
<xr id="fig:Micro structure of AgCdO9010ZH"/> <!--Fig. 2.85: --> Micro structure of Ag/CdO 90/10 ZH: 1) Ag/CdO layer 2) AgCd backing layer
<xr id="fig:Micro structure of AgCdO8812WP"/> <!--Fig. 2.86: --> Micro structure of AgCdO 88/12 WP: a) perpendicular to extrusion direction b) parallel to extrusion direction
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