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{| class="twocolortable" style="text-align: left; font-size: 12px;width:100%"
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!DimensioningDimensionierung!Solid Rivets Massivniet (1)!Composite Rivets Bimetallniet (2)
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|a : d
*'''Head diameter for electrical loads''' {| class="twocolortable" style="textAusfallwahrscheinlichkeit von Einzel-align: left; font-size: 12px;width:40%"|-|For AC currents: |approx. 1 – 1.5 A/mm²|-|For 1 A |min. 2 mm head diameter|-|10 A |approx. 3 – 3.5 mm head diameter|-|20 A |approx. 5 mm head diameter|-|For DC currents: |approx. 0.5 – 0.8 A/mm²|} *'''Head radius R for electrical loads''' {| class="twocolortable" style="text-align: left; font-size: 12px;width:40%"|-|for I < 1 A |R ≈ 1,5 mm|-|I = 6 A |R ≈ 5 mm|-|I = 10 A |R ≈ 10 mm|-|I = 20 A |R ≈ 15 mm|} *'''Failure Probability of Single and Double (Bifurcated) Contactsund Doppelkontakten''' (according to nach Thielecke)
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!Contact forceKontaktkraft[N] !colspan="42" style="text-align:center"|'''Single contactEinzelkontakt'''!colspan="2" style="text-align:center"|'''Doppelkontakt'''
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<div class="multiple-images">
<figure id="fig:Failure probability of a contact as a function of the voitage">
[[File:Failure probability of a contact as a function of the voitage.jpg|left|Failure probability of a contact as a function of the voltage thumb|Figure 2: Ausfallwahrscheinlichkeit eines Kontaktes in Abhängigkeit von der Spannung (according to nach Kirchdorfer); Ag/Ni10; 10 mA]]
</figure>
<figure id="fig:Failure probability of a contact as a function of the current">
[[File:Failure probability of a contact as a function of the current.jpg|left|Failure probability of a contact as a function of the current thumb|Figure 3: Ausfallwahrscheinlichkeit eines Kontaktes in Abhängigkeit von der Stromstärke (according to nach Kirchdorfer); Ag/Ni10; 10 mA; Ag/Ni10; F<sub>k</sub> = 0.45 N; U = 24 V]]
</figure>
</div>
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==Referenzen==