How to improve soldering tip life and reduce cost

Higher requirements for thermal load and temperatures

How to improve soldering tip life and reduce cost

Advertisement

Whether in production, or repair and rework, the cost of soldering iron tips can be easily overlooked, but with today’s requirement for higher temperatures in lead-free solder applications, the consumption of tips has dramatically increased. This fact, combined with changes in tip design to meet the higher thermal load requirements, has also resulted in escalating tip costs, making soldering tip care a high priority.

In short, higher melting temperatures have resulted in:

  • The requirement for soldering irons to provide higher thermal performance.
  • Shorter tip life due to the increased temperature/thermal load.
  • Faster oxidation of tips due to the increased temperature.

However, there are ways to improve soldering tip life and reduce cost. Some key points to remember when soldering include:

  • Turn the power off when the soldering iron is not in use. Accessories such as “sleep work stands” or “power down” functions will certainly help tip life but turning the power supply off will help even more.
  • If using a sponge, do not oversoak it. Remember that every time the soldering tip touches the sponge, a thermal shock occurs, potentially damaging the plating (e.g., if cold water is applied to hot glass, cracks occur).
  • Do not use pliers to remove the tip. Undue pressure can easily deform tips. Use the tip removal pad.
  • Make sure the tip is tinned with solder at all times. Solder helps protect the iron plating and prevent oxidization. A burnt or blackened tip will not take solder.

Suggested tip care procedures

The solder tip needs to be cleaned and tinned whenever the soldering iron is not in use. Tip life on soldering irons that have very fast thermal response, such as Thermaltronics’ curie heat technology soldering irons, can be extended, if the following procedures are followed:

Procedure #1: Tin the tip before putting it into storage

  • Turn off power supply.
  • Clean tip with brass curls.
  • Tin tip with solder.
  • Replace the hand piece in the work stand.

Note: It is recommended to turn the power supply off before cleaning the soldering tip for storage. This will reduce the oxidation while performing maintenance of the tip with brass curls.

Procedure #2: Always keep the tip tinned when in use

  • Select right size tip geometry for the joints being soldered. Ideally, it should be the largest possible size necessary to accomplish a good solder joint.
  • Do not apply too much force on the tip during soldering.
  • Use brass curls to clean the soldering tip because this is better than a water-soaked sponge.
  • Use a soft brass brush for tough oxidation buildup or whenever brass curls may have difficulty in removing the oxidation from the tip surface.
  • Use tip tinner. Tips have more plating on the working end of the tip and this extra plating allows operators to use tip tinner/cleaner (TMT-TC-2) to restore tip life.

Note: When iron plating is exposed to water and oxygen, it corrodes. Oxidation is a chemical process that is caused by the interaction between oxygen and other elements that come from all kinds of fluxes, water, etc.

Suggest soldering tip care recovery procedure

For heavily oxidized tips, the following procedure should be followed:

  • Turn off the power supply.
  • Dip the tip in the tip tinner/cleaner.
  • Brush tip with a soft wire brush to clean off the oxide layer. (Repeat the process if the tip is badly burnt/oxidized.)
  • Re-tin the tip and return to the stand.

Note: Most soldering tips operate at 375°C+ and since the typical lead-free solder wire melt temperature is ± 217°C, there is still sufficient thermal energy left in the tip to complete the above process. If power is left on during the cleaning process, the power supply will drive more thermal energy to the tip and try to heat the tip tinner or wire brush.

If the tip is not badly oxidized but is still in need of cleaning:

  • Turn off the power supply.
  • Dip the tip in the tip tinner/cleaner.
  • Use brass curls to clean off the oxide.
  • Repeat as needed.
  • Re-tin the tip and return to the stand.

For applications where a sponge is in use:

  • Make sure the sponge is Sulphur-free and designed for soldering use.
  • Turn off the power supply.
  • Do not oversoak the sponge: squeeze it to release excess water.
  • Use deionized water – not tap water.
  • Do not repeatedly use the sponge – water is H2O and the oxygen part will add to potential oxidization.
  • Once clean, tin soldering tip and return to the stand.

www.thermaltronics.com

Advertisement

Current Issue

Titelbild EPP EUROPE Electronics Production and Test 11
Ausgabe
11.2018
READ
ARCHIVE

Videos

Here you can find all current videos

All Webinars & Webcasts

Here you can find all webinars from our industry pages

All Whitepaper

Here you can find all Whitepaper from our industry pages

Newsletter

Get the latest news from Electronics Production and Test! Subscribe now!

Advertisement

Industrie.de Infoservice

Vielen Dank für Ihre Bestellung!
Sie erhalten in Kürze eine Bestätigung per E-Mail.
Von Ihnen ausgesucht:
Weitere Informationen gewünscht?
Einfach neue Dokumente auswählen
und zuletzt Adresse eingeben.
Wie funktioniert der Industrie.de Infoservice?
Zur Hilfeseite »
Ihre Adresse:














Die Konradin Verlag Robert Kohlhammer GmbH erhebt, verarbeitet und nutzt die Daten, die der Nutzer bei der Registrierung zum Industrie.de Infoservice freiwillig zur Verfügung stellt, zum Zwecke der Erfüllung dieses Nutzungsverhältnisses. Der Nutzer erhält damit Zugang zu den Dokumenten des Industrie.de Infoservice.
AGB
datenschutz-online@konradin.de