Difference between revisions of "Contact Physics – Formulas"

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===<!--6.4.2-->Contact Physics – Formulas===
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===6.4.2 Contact Physics – Formulas===
  
 
*'''Constriction resistance'''  
 
*'''Constriction resistance'''  
Line 38: Line 38:
 
c = material dependent proportionality factor<br/>
 
c = material dependent proportionality factor<br/>
 
m = shape dependent exponent of the contact force
 
m = shape dependent exponent of the contact force
 
 
{| class="twocolortable scalable" style="text-align: left; font-size: 12px; width:45%;"
 
|-
 
!Material combination
 
!c
 
|-
 
|Copper - Copper
 
|(0.08 bis 0.14) x 10<sup>-3</sup>
 
|-
 
|Aluminum - Aluminum
 
|(3 bis 6,7) x 10<sup>-3</sup>
 
|-
 
|Brass - Brass
 
|0.67 x 10<sup>-3</sup>
 
|-
 
|Steel – Silver
 
|0.06 x 10<sup>-3</sup>
 
|-
 
|Steel – Copper
 
|3.1 x 10<sup>-3</sup>
 
|-
 
|Steel – Brass
 
|3.0 x 10<sup>-3</sup>
 
|}
 
 
{| class="twocolortable scalable" style="text-align: left; font-size: 12px; width:45%; "
 
|-
 
!Contact shapes
 
!m
 
|-
 
|Flat – Flat
 
|1
 
|-
 
|Pyramid – Flat
 
|0.5
 
|-
 
|Sphere – Flat
 
|0.6
 
|-
 
|Sphere – Sphere
 
|0.5
 
|-
 
|Multi-strand brush - Flat
 
|1
 
|-
 
|Current bar (Busbar) contact
 
|0.5 - 0.7
 
|}
 
<div class="clear"></div>
 
  
 
==References==
 
==References==
 
[[Application Tables and Guideline Data for Use of Electrical Contact Design#References|References]]
 
[[Application Tables and Guideline Data for Use of Electrical Contact Design#References|References]]
 
[[de:Formeln_aus_der_Kontaktphysik]]
 

Revision as of 11:14, 31 March 2014

6.4.2 Contact Physics – Formulas

  • Constriction resistance
R_e = \rho/2a

(Single spot contact according to Holm; circular touching spot between clean contact surfaces)

R_e = \rho/2Na

(Multi-spot contact according to Holm without influence between the N individual spots)

R_e = \rho/2 x \sum a_i + 3 \pi \rho /32N^2 x \sum \sum (s_ij) i \neq j

(Multi-spot contact according to Greenwood considering the influence between the spots)

  • Contact resistance
R_K = R_e + R_f
  • Path resistance
R_d = R_b + R_K
  • Contact resistance and contact force
R_K = 280\rho \sqrt[3]{E (F_K \cdot r)}

(According to Holm model for film-free spherical contact surfaces with plastic deformation of the contact material; Fk < 1 N for typical contact materials)

R_K = 9000 \rho \sqrt{ H/ F_K}

(According to Holm model for film-free spherical contact surfaces with plastic deformation of the contact material; Fk > 5 N for typical contact materials)

  • Dynamic contact separation (without considering magnetic fields caused by the current path)
F_A \approx 0,8 xl^2

(Rule of thumb with FA in N and l in kA)

  • Contact voltage and max. contact temperature
T_kmax \approx 3200 U_K
  • Contact resistance at higher contact forces (according to Babikow)
R_K = cF_k^{-m}

For FK between 10 and 200 N
c = material dependent proportionality factor
m = shape dependent exponent of the contact force

References

References

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