Difference between revisions of "Manufacturing Technologies for Contact Parts"

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Besides the selection of the most suitable contact materials the design and type
+
Besides the selection of the most suitable contact materials, the design and type of attachment is critical for the reliability and electrical life of contact components for electromechanical switching devices. The most important factors here are the material-saving use of precious metals and the most economical manufacturing method for contact parts..
of attachment is critical for the reliability and electrical life of contact
 
components for electromechanical switching devices. The materials saving use
 
of high cost precious metals and the most economic manufacturing method for
 
contact parts are most important factors.
 
  
There are two basic manufacturing solutions available: One can start with single
+
There are two basic manufacturing solutions available: One can start with single contact parts, such as contact rivets or tips, which then are attached mechanically or by brazing or welding resp. to carrier parts. In the second case, a base material coated or clad with the precious contact metal - for special applications also clad with another non-precious material – in the form of strips or profiles is manufactured as a semi-finished pre-material from which the contact components are then stamped and formed. Besides mechanical cladding other processes such as electroplating and deposition from the gas phase are utilized.
contact parts such as contact rivets or tips which then are attached
+
Which of the following manufacturing processes is finally chosen, depends on the final application of the contact components in their respective switching devices or electromechanical components. Other considerations, such as the required number of electrical operations, the most economical use of precious metals and the anticipated volumes of parts are also important for the process selection.
mechanically or by brazing or welding resp. to carrier parts. In the second case
 
a base material coated or clad with the precious contact metal - for special
 
applications also clad with another non-precious material – in the form of strips
 
or profiles is manufactured as a semi-finished pre-material from which the
 
contact components are then stamped and formed. Besides mechanical
 
cladding other processes such as electroplating and deposition from the gas
 
phase are utilized.
 
Which of the following manufacturing processes is finally chosen depends on
 
the final application of the contact components in their respective switching
 
devices or electromechanical components. Other considerations such as the
 
required number of electrical operations, the most economical use of precious
 
metals and the anticipated volumes of parts are also important for the process
 
selection.
 
  
===3.1 Manufacturing of Single Contact Parts===
+
==Manufacturing of Single Contact Parts==
The group of single contacts includes contact rivets, contact tips, and formed
+
The group of single contacts includes contact rivets, contact tips and formed parts such as weld buttons. Contact spheres (or balls) are today rarely used because of economical considerations. <br>
parts such as weld buttons. Contact spheres (or balls) are today rarely used
+
Main Articel: [[Manufacturing of Single Contact Parts| Manufacturing of Single Contact Parts]]
because of economical considerations. <br>
 
Main Articel: [[3.1 Manufacturing of Single Contact Parts| Manufacturing of Single Contact Parts]]
 
  
===3.2 Manufacturing of Semi-Finished Materials===
+
==Manufacturing of Semi-Finished Materials==
Semi-finished contact pre-materials can be manufactured from solid precious
+
Semi-finished contact pre-materials can be manufactured from solid precious metals, precious metal alloys or precious metal containing composite materials. <br>
metals, precious metal alloys, or precious metal containing composite materials. <br>
+
Main Articel: [[Manufacturing of Semi-Finished Materials | Manufacturing of Semi-Finished Materials]]
Main Articel: [[3.2 Manufacturing of Semi-Finished Materials | Manufacturing of Semi-Finished Materials]]
 
  
 +
==Attachment of Single Contact Parts==
 +
The following segments give an overview of the usually applied attachment technologies for contact parts to carrier components. They include mechanical, as well as brazing and welding methods used for electrical contact assemblies.
  
===3.3 Attachment of Single Contact Parts===
+
Main Articel: [[Attachment of Single Contact Parts | Attachment of Single Contact Parts]]
The following segments give an overview of the usually applied attachment
 
technologies for contact parts to carrier components. They include mechanical
 
as well as brazing and welding methods used for electrical contact assemblies.
 
  
Main Articel: [[3.3 Attachment of Single Contact Parts | Attachment of Single Contact Parts]]
+
== Evaluation of Braze or Weld Joints==
 +
The switching properties of brazed and welded contact assemblies is strongly dependent on the quality of the joint between the contact and the carrier. The required high quality is evaluated through optical methods, continuous control of relevant process parameters and by sampling of finished products.
  
 +
Main Articel: [[Evaluation of Braze or Weld Joints| Evaluation of Braze or Weld Joints]]
  
===3.4 Evaluation of Braze or Weld Joints===
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==Stamped Contact Parts==
The switching properties of brazed and welded contact assemblies is strongly
+
Stamped electrical contact parts typically consist of a base carrier material to which a contact material is attached by various methods (<xr id="fig:Plated and contact containing pre-stamped strips and stamped parts"/><!--(Fig. 3.17)-->).
dependent on the quality of the joint between the contact and the carrier. The
+
They serve as the important functional components in many switching and electromechanical devices for a broad range of electrical and electronic
required high quality is evaluated through optical methods, continuous control
+
applications. On the one hand, they perform the mostly loss-free electrical current transfer and the closing and opening of electrical circuits, while on the other hand, the contact carriers are important mechanical design components, selected to meet the requirements on electrical, thermal, mechanical and magnetic properties.
of relevant process parameters and by sampling of finished products.
 
  
Main Articel: [[3.4 Evaluation of Braze or Weld Joints| Evaluation of Braze or Weld Joints]]
+
The increasing miniaturization of electromechanical components requires ever smaller stamped parts with low dimensional tolerances. Such precision
 +
stamped parts are needed in the automotive technology for highly reliable switching and connector performance. In the information and data processing
 +
technology, they transfer signals and control impulses with high reliability and serve as the interface between electronic and electrical components.
 +
<figure id="fig:Plated and contact containing pre-stamped strips and stamped parts">
 +
[[File:Plated and contact containing pre-stamped strips and stamped parts.jpg|left|thumb|Figure 1: Plated and contact containing pre-stamped strips and stamped parts for different applications]]
 +
</figure>
 +
<br style="clear:both;"/>
 +
Main Articel: [[Stamped Contact Parts| Stamped Contact Parts]]
  
===3.5 Stamped Contact Parts===
+
==References==
Stamped electrical contact parts typically consist of a base carrier material to
 
which a contact material is attached by various methods ''(Fig. 3.17)''. They serve
 
as the important functional components in many switching and
 
electromechanical devices for a broad range of electrical and electronic
 
applications. On the one hand they perform the mostly loss-free electrical
 
current transfer and the closing and opening of electrical circuits. In addition the
 
contact carriers are important mechanical design components selected to meet
 
the requirements on electrical, thermal, mechanical and magnetic properties.
 
 
 
The increasing miniaturization of electromechanical components requires ever
 
smaller stamped parts with low dimensional tolerances. Such precision
 
stamped parts are needed in the automotive technology for highly reliable
 
switching and connector performance. In the information and data processing
 
technology they transfer signals and control impulses with high reliability and
 
serve as the interface between electronic and electrical components.
 
 
 
Fig. 3.17:
 
Plated and contact
 
containing pre-stamped strips and
 
stamped parts for different
 
applications
 
 
 
Main Articel: [[3.5 Stamped Contact Parts| Stamped Contact Parts]]
 
 
 
 
 
[[Category:Manufacturing Technologies for Contact Parts|Category]]
 
 
 
===References===
 
  
 
Vinaricky, E. (Hrsg.): Elektrische Kontakte, Werkstoffe und Anwendungen.
 
Vinaricky, E. (Hrsg.): Elektrische Kontakte, Werkstoffe und Anwendungen.
Line 120: Line 79:
 
Bolmerg, E.: Aufschweißtechnik von Kontakten in Hinblick auf ihre Anwendung.
 
Bolmerg, E.: Aufschweißtechnik von Kontakten in Hinblick auf ihre Anwendung.
 
VDE-Fachbericht 51 (1997) 103-109
 
VDE-Fachbericht 51 (1997) 103-109
 +
 +
[[de:Technologien_für_die_Herstellung_von_Kontaktteilen]]

Latest revision as of 09:18, 12 January 2023

Besides the selection of the most suitable contact materials, the design and type of attachment is critical for the reliability and electrical life of contact components for electromechanical switching devices. The most important factors here are the material-saving use of precious metals and the most economical manufacturing method for contact parts..

There are two basic manufacturing solutions available: One can start with single contact parts, such as contact rivets or tips, which then are attached mechanically or by brazing or welding resp. to carrier parts. In the second case, a base material coated or clad with the precious contact metal - for special applications also clad with another non-precious material – in the form of strips or profiles is manufactured as a semi-finished pre-material from which the contact components are then stamped and formed. Besides mechanical cladding other processes such as electroplating and deposition from the gas phase are utilized. Which of the following manufacturing processes is finally chosen, depends on the final application of the contact components in their respective switching devices or electromechanical components. Other considerations, such as the required number of electrical operations, the most economical use of precious metals and the anticipated volumes of parts are also important for the process selection.

Manufacturing of Single Contact Parts

The group of single contacts includes contact rivets, contact tips and formed parts such as weld buttons. Contact spheres (or balls) are today rarely used because of economical considerations.
Main Articel: Manufacturing of Single Contact Parts

Manufacturing of Semi-Finished Materials

Semi-finished contact pre-materials can be manufactured from solid precious metals, precious metal alloys or precious metal containing composite materials.
Main Articel: Manufacturing of Semi-Finished Materials

Attachment of Single Contact Parts

The following segments give an overview of the usually applied attachment technologies for contact parts to carrier components. They include mechanical, as well as brazing and welding methods used for electrical contact assemblies.

Main Articel: Attachment of Single Contact Parts

Evaluation of Braze or Weld Joints

The switching properties of brazed and welded contact assemblies is strongly dependent on the quality of the joint between the contact and the carrier. The required high quality is evaluated through optical methods, continuous control of relevant process parameters and by sampling of finished products.

Main Articel: Evaluation of Braze or Weld Joints

Stamped Contact Parts

Stamped electrical contact parts typically consist of a base carrier material to which a contact material is attached by various methods (Figure 1). They serve as the important functional components in many switching and electromechanical devices for a broad range of electrical and electronic applications. On the one hand, they perform the mostly loss-free electrical current transfer and the closing and opening of electrical circuits, while on the other hand, the contact carriers are important mechanical design components, selected to meet the requirements on electrical, thermal, mechanical and magnetic properties.

The increasing miniaturization of electromechanical components requires ever smaller stamped parts with low dimensional tolerances. Such precision stamped parts are needed in the automotive technology for highly reliable switching and connector performance. In the information and data processing technology, they transfer signals and control impulses with high reliability and serve as the interface between electronic and electrical components.

Figure 1: Plated and contact containing pre-stamped strips and stamped parts for different applications


Main Articel: Stamped Contact Parts

References

Vinaricky, E. (Hrsg.): Elektrische Kontakte, Werkstoffe und Anwendungen. Springer-Verlag, Heidelberg, Berlin 2002

Witter, G., J.; Horn, G.: Contact Design and Attachment in: Electrical Contacts. Hrg.: Slade, P., G., Marcel Dekker, Inc.,New York, Basel, 1999

Mürrle, U: Löten und Schweißen elektrischer Kontakte. In: Werkstoffe für elektrische Kontakte und ihre Anwendungen: Hrg.: Schröder K.-H. u. a.; Expert-Verlag, Band 366, (1997), 146 - 175

Eisentraut, H.: Verbundwerkstoffe aus der Walze. Kaltwalzplattieren von Mehrschichtverbundhalbzeugen, Metall 48 (1994) 95-99

Weik, G.: Kontaktprofile ganzheitliche Lösungen für elektrische Kontaktsysteme, Metall 61 (2007) H. 6, 399 403

Jinduo, F; Guisheng, W.; Fushu, L.; Hongbing, Z.; Wenland, L.: Study on Reliability of AuAg10/AgNi10/CuNi30 Micro Contacts, th Proc. 24th Int. Conf.on Electr. Contacts, Saint Malo, France 2008, 206-209

Dorn, L.: Grundlagen der Löttechnik. in: Hartlöten Grundlagen und Anwendungen. Hrsg.: Dorn, L. u.a., Expert-Verlag, Band 146 (1985) 15-40

Schreiner, H.: Güte der Lötung bzw. Schweißung von Kontaktstücken auf dem Trägermetall - Prüfung und Beurteilung nach dem Beschalten im Prüfschalter. Metall 30 (1976) 625 - 628

DVS-Merkblatt 2813: Widerstandsschweißen von elektrischen Kontakten, Düsseldorf: DVS-Verlag 2009

Schneider, F.: Stöckel, D.: Schweißen in der Kontakttechnik. Zts. für wirtschaftliche Fertigung 72, (1977) H. 4 u. 6

Haas, H.; Martin, W.; Tschirner, U.: Widerstandsschweißen in der Elektrotechnik, VDE-Fachbericht 42 (1991) 113-121

Weik, G.: Widerstandsschweißen von Kontaktprofilen mit Nachsetzwegmessung, VDE-Fachbericht 63 (2007) 165-174

Bolmerg, E.: Aufschweißtechnik von Kontakten in Hinblick auf ihre Anwendung. VDE-Fachbericht 51 (1997) 103-109