<tr><th><p class="s11">Material</p></th><th><p class="s12">Application Examples</p></th><th><p class="s12">Forms of Supply</p></th></tr><tr><td><p class="s11">Pt (99,95)</p></td><td><p class="s12">Relays</p></td><td><p class="s12">Contact rivets, welded contact parts</p></td></tr><tr><td><p class="s11">PtIr5</p><p class="s11">PtIr10</p><p class="s11">PtRu10</p><p class="s11">PtNi8</p><p class="s11">PtW5</p></td><td><p class="s12">Relays, sliding contact systems,</p><p class="s12">automotive ignition breaker points</p></td><td><p class="s12">'''Semi-finished Contact Materials''':</p><p class="s12">Wire, seam-welded contact profiles</p><p class="s12">'''Contact Parts:'''</p><p class="s12">Tips, wire-formed parts, solid and composite contact rivets, welded contact parts</p></td></tr><tr><td><p class="s11">Pd (99,95)</p><p class="s11">PdNi5</p></td><td><p class="s12">Relays</p></td><td><p class="s12">Micro-profiles (weld tapes), contact rivets, welded contact parts</p></td></tr><tr><td><p class="s11">PdCu15</p><p class="s11">PdCu40</p></td><td><p class="s12">Automotive flasher relays</p></td><td><p class="s12">Micro-profiles, composite contact rivets</p></td></tr><tr><td><p class="s11">Pd35AuAgPt</p><p class="s11">Pd44Ag38Cu15</p><p class="s11">PtAuZn</p><p class="s11">Pd40Co40W20</p></td><td><p class="s12">Potentiometers, slip rings, miniature</p><p class="s12">DC motors</p></td><td><p class="s12">Wire-formed parts, welded wire segments, multi-arm sliding contact brushes</p></td></tr></table>
</figtable>
<xr id="fig:Influence_of_1-20_atom%_of_different_additive_metals_on_the_electrical_resistivit_ p_of_platinum_(Degussa)"/>Influence of 1-20 atom% of different additive metals on the electrical resistivity p of platinum (Degussa)
<xr id="fig:Influence_of_1-20_atom%_of_different_additive_metals_on_the_electrical_resistivit_ p_of_platinum"/>
Influence of 1-22 atom% of different additive metals on the electrical resistivity p of palladium
<xr id="fig:Phase_diagram_of_platinum-iridium"/>Fig. 2.27: Phase diagram of platinum-iridium
<xr id="fig:Phase_diagram_of_platinum-nickel"/>
Fig. 2.28: Phase diagram of platinum-nickel
<xr id="fig:Phase_diagram_of_platinum-tungsten"/>
Fig. 2.29: Phase diagram of platinum-tungsten
<xr id="fig:Phase_diagram_of_platinum-copper"/>
Fig. 2.30: Phase diagram of palladium-copper
<xr id="fig:Strain_hardening_of_Pt_by_cold_working"/>
Fig. 2.31: Strain hardening of Pt by cold working
<xr id="fig:Softening_of_Pt_after_annealing_for_0.5_hrs_after_80%_cold_working"/>
Fig. 2.32: Softening of Pt after annealing for 0.5 hrs after 80% cold working
<xr id="fig:Strain_hardening_of_PtIr5_by_cold_working"/>
Fig. 2.33: Strain hardening of PtIr5 by cold working
<xr id="fig:Softening_of_PtIr5_after_annealing_for_1_hr_after_different degrees_of_cold_working"/>
Fig. 2.34: Softening of PtIr5 after annealing for 1 hr after different degrees of cold working
<xr id="fig:Strain_hardening_of_PtNi8_by_cold_working"/>Fig. 2.35: Strain hardening of PtNi8 by cold working
<xr id="fig:Softening_of_PtNi8_after_annealing_for_1_hr_after_80%_cold_working"/>
Fig. 2.36: Softening of PtNi8 after annealing for 1 hr after 80% cold working
<xr id="fig:Strain_hardening_of_PtW5_by_cold_working"/>Fig. 2.37: Strain hardening of PtW5 by cold working
<xr id="fig:Softening_of_PtW5_after_annealing_for_1_hr_after_80%_cold_working"/>Fig. 2.38: Softening of PtW5 after annealing for 1hr after 80% cold working
<xr id="fig:Strain_hardening_of_Pd_99.99_by_cold_working"/>Fig. 2.39: Strain hardening of Pd 99.99 by cold working
<xr id="fig:Strain_hardening_of_PdCu15_by_cold_working"/>Fig. 2.40: Strain hardening of PdCu15 by cold working
<xr id="fig:Softening_of_PdCu15_after_annealing_for_0.5_hrs"/>Fig. 2.41: Softening of PdCu15 after annealing for 0.5 hrs
<xr id="fig:Strain_hardening_of_PdCu40_by_cold_working"/>Fig. 2.42: Strain hardening of PdCu40 by cold working
<xr id="fig:Softening_of_PdCu40_after_annealing_for_0.5_hrs_after_80%_cold_working"/>Fig. 2.43: Softening of PdCu40 after annealing for 0.5 hrs after 80% cold working
<xr id="fig:Electrical_resistivity_p_of_PdCu_alloys"/>Fig. 2.44: Electrical resistivity p of PdCu alloys with and without an annealing step for forming an ordered phase
