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An Introduction to Soldering
What is Soldering ?
Soldering is the joining together of two metals to give physical
bonding and goodelectrical conductivity. It is used primarily in
electrical and electronic circuitry. Solderis a combination of
metals, which are solid at normal room temperatures andbecome
liquid at between 180 and 200C. Solder bonds well to various
metals, andextremely well to copper.
In electronics a 60/40 fluxed core solder is used. This consists
of 60% Lead and 40%Tin, with flux cores added through the length of
the solder.
Flux is an aggressive chemical that removes oxides and
impurities from the parts tobe soldered. This ensures a good
physical and electrical joint is made. Fluxes enablegood "wetting"
or "tinning". Wetting is a term that describes good adhesion of
thesolder to the components being soldered. Tinning is a term that
describes theapplication of solder to the soldering iron tip, or to
a component being prepared forsoldering.
Soldering Irons
These are the tools, which heat the solder from room temperature
to its meltingpoint. A modern basic electrical soldering iron
consists of the following: -
* heating element
* soldering bit (often called the tip)* handle* power cord
The heating element can be either a resistance wire wound around
a ceramic tube,or a thick film resistance element printed onto a
ceramic base. The element is theninsulated and placed into a metal
tube for strength and protection. This is thenthermally insulated
from the handle. The element reaches temperatures of around370 to
400C. i.e. approximately 200 degrees higher than the melting point
of thesolder.
The soldering bit is a specially shaped piece of copper plated
with iron and thenusually plated with chrome. Copper is used for
good thermal conductivity. Iron is veryresistant to aggressive
solders and fluxes. The bit then fits over or inside the
heatingelement dependant on the design of the soldering iron.
The handle and power cord completes the soldering iron. Various
handle styles areavailable. The power cord is often insulated with
PVC. but, this can be damaged andmelt if touched by a hot soldering
iron. Therefore silicone rubber insulated powerleads are extremely
popular for long life and electrical safety.
Soldering Iron Selection
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The strength or power of a soldering iron is usually expressed
in Watts. Ironsgenerally used in electronics are typically in the
range 12 to 25 Watts. The mostpopular irons for use in hobbyist
electronics are the 18 and 25 Watt versions.
It must be remembered that a 25 Watt iron will not run hotter
than a 12 Watt iron, butit will have more power available to
quickly replace heat drained from the iron duringsoldering.
Therefore, the bigger the component being soldered, the greater the
needfor "quantity of heat", the higher the power needed.
Most irons are available in a variety of voltages, 12V, 24V,
115V, and 230V are themost popular. Today most laboratories and
repair shops have a wired 24V supply.You should always use this low
voltage where possible, as it is much safer. If youwould like 24
volts in the home, use an Antex Plug-in power supply unit.
As your soldering skills improve, you may work with temperature
sensitive devicessuch as integrated circuits and smaller more
delicate components like surfacemount. For these applications
temperature controlled soldering (TCS) is essential.The lowest cost
TCS iron has a temperature sensor in the tip of the element
andcontrol circuitry in the handle. The temperature may be set
between 200 degC and450 degC.
For bench work a soldering station may be used. This
incorporates temperatureselection, optional digital readout,
anti-static lead connection, 24V transformer, aniron holder, and a
sponge, all within a neat bench unit.
Care & Maintenance
In common with all tools, the soldering iron will last longer
with proper care:a) Before and during use wipe the bit on a damp
sponge. Most bench standsincorporate a sponge for this purpose.b)
When using a new bit, apply solder to it as it heats up. This will
ensure goodtinning of the bit.c) Always keep a hot iron in a bench
stand, or suspended by the hook, when not inuse.d) Regularly check
the mains lead for burns or other damage. Consider replacingwith
silicone rubber if necessary.e) If broken or damaged, all component
parts are available from Antex as spares.
f) Never put a soldering iron into any liquid.g) Periodically
remove the bit and clear away any oxide build up. This will
preventthe bit from seizing and also will ensure that a low earth
continuity is maintained(vital in electrostatic controlled
areas).
Further information on the craft of soldering can be found in
the Basic SolderingGuide of EPE magazine at :
www.epemag.wimborne.co.uk/solderfaq.htm
Date 8/4/00
http://www.epemag.wimborne.co.uk/solderfaq.htmhttp://www.epemag.wimborne.co.uk/solderfaq.htm
