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{| class="twocolortable" style="text-align: left; font-size: 12px"
|-
!MaterialWerkstoff!Hardness<br />ConditionZustand!Tensile Strength Zugfestigkeit R<sub>m</sub><br />[MPa]!0,2% Yield StrengthDehngrenze<br />R<sub>p02</sub><br />[MPa]!ElongationBruchdehnung<br />A<sub>50</sub><br />[%]!Vickers<br />HardnessVickershärte<br />HV!Bend RadiusBiegeradius<sup>1)</sup><br />perpendicular tomin senkrecht zur<br />rolling directionWalzrichtung!Bend RadiusBiegeradius<sup>1)</sup><br />min parallel tozur<br />rolling directionWalzrichtung!Spring Bending<br />Limit Federbiegegrenze σ<sub>FB</sub><br />[MPa]!Spring Fatigue<br />Limit Biegewechselfestigkeit σ<sub>BW</sub><br />[MPa]
|-
|CuNi25
|}
</figtable>
<sup>1)</sup> t: Strip thickness Banddicke max. 0.,5 mm
<xr id="fig:Strain hardening of copper-nickel alloys as a function of nickel content"/><!--Fig. 5.23:--> Strain hardening of copperVerfestigungsverhalten von Kupfer-nickel alloys as a function of nickel contentNickel-Legierungen in Abhängigkeit vom Nickelgehalt
<xr id="fig:Strain hardening of CuNi25 by cold working"/><!--Fig. 5.24:--> Strain hardening of Verfestigungsverhalten von CuNi25 by cold workingdurch Kaltumformung
<xr id="fig:Softening of CuNi25 after 1 hr annealing after 50% cold working"/><!--Fig. 5.25:--> Softening of Erweichungsverhalten von CuNi25 after 1 hr annealing after nach 1h Glühdauer und einer Kaltumformung von 50% cold working
<xr id="fig:Strain hardening of CuNi9Sn2 by cold working (Wieland)"/><!--Fig. 5.26:--> Strain hardening of Verfestigungsverhalten von CuNi9Sn2 by cold working durch Kaltumformung (Wieland)
<xr id="fig:Softening of CuNi9Sn2 after 1 hr annealing after 60% cold working (Wieland)"/><!--Fig. 5.27:--> Softening of Erweichungsverhalten von CuNi9Sn2 after 1 hr annealing after nach 1h Glühdauer und einer Kaltumformung von 60% cold working (Wieland)
<div id="figures6" class="multiple-images">
<figure id="fig:Strain hardening of copper-nickel alloys as a function of nickel content">
[[File:Strain hardening of copper nickel alloys as function.jpg|left|thumb|<caption>Strain hardening of copperVerfestigungsverhalten von Kupfer-nickel alloys as a function of nickel contentNickel-Legierungen in Abhängigkeit vom Nickelgehalt</caption>]]
</figure>
<figure id="fig:Strain hardening of CuNi25 by cold working">
[[File:Strain hardening of CuNi25 by cold working.jpg|left|thumb|<caption>Strain hardening of Verfestigungsverhalten von CuNi25 by cold workingdurch Kaltumformung</caption>]]
</figure>
<figure id="fig:Softening of CuNi25 after 1 hr annealing after 50% cold working">
[[File:Softening of CuNi25 after annealing after 50.jpg|left|thumb|<caption>Softening of Erweichungsverhalten von CuNi25 after 1 hr annealing after nach 1h Glühdauer und einer Kaltumformung von 50% cold working</caption>]]
</figure>
<figure id="fig:Strain hardening of CuNi9Sn2 by cold working (Wieland)">
[[File:Strain hardening of CuNi9Sn2 by cold working.jpg|left|thumb|<caption>Strain hardening of Verfestigungsverhalten von CuNi9Sn2 by cold working durch Kaltumformung (Wieland)</caption>]]
</figure>
<figure id="fig:Softening of CuNi9Sn2 after 1 hr annealing after 60% cold working (Wieland)">
[[File:Softening of CuNi9Sn2 after annealing Wieland.jpg|left|thumb|<caption>Softening of Erweichungsverhalten von CuNi9Sn2 after 1 hr annealing after nach 1h Glühdauer und einer Kaltumformung von 60% cold working (Wieland)</caption>]]
</figure>
</div>
