As a consequence of the 'Removal of Hazardous Substances' (RoHS) legislation, most products sold in the EU after July 2006 will need to be lead-free in content. Even products which fall strictly outside of this directive may encounter difficulties with regard to existing recycling legislation if they persist with using lead in manufacturing. The main area of concern for manufacturers, particularly in the electronics sector is of course the means of eliminating lead from the solders used in printed circuit boards.
A range of lead-free solder substances are already available, but many of them require considerably higher temperatures to melt and there have been reports that they do not flow or bond as well as the traditional lead solders.
Laser soldering has the advantage that the heat is applied only where it is required: at the joint itself; there is negligable heating to the surrounding components, unlike with RF or wave soldering, so the higher temperature requirement can easily be satisfied.
Laser soldering is also very fast - much more power can be applied to the joint than using conventional 'hot iron' soldering and so each joint can be completed in a fraction of a second.
This has the key advantage that less energy is required overall to create the joint with the consequence that the joint also cools very quickly, more rapid cooling brings tougher joints with better conduction properties owing to the fine grain structure and short intermetallic zone.
Today, the laser type that is often preferred is the diode laser; its output wavelengths (808 or 940nm) are well absorbed by metals and can be coupled via fibre optics or standard optical lenses.
Such lasers are very compact, low maintenance and energy efficient.
Beam delivery may be simply by cartesian CNC motion of either the laser head and optics or the PCB itself, such an arrangement facilitates easy application of solder wire via an automatic feeder.
Alternatively, for the most rapid throughput, if solder is pre-applied it may be possible to use a galvo deflection head to send the laser from solder joint to solder joint under computer control - the total move and settle time between consecutive soldering actions can then be measured in milliseconds.
If you have a lead-free soldering problem, contact us without delay to see if laser technology can be part of the solution: the deadline is approaching fast.
For further information about Laser Soldering visit Laser Resources at http://www.laserresources.com.au
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Laser Resources was founded in 1992 to promote the use of laser technology and related products for industry in Australia and New Zealand, using the best available sources of technology from Europe. The Laser Resources Team aims to cooperatively develop and implement the use of laser technologies in industry to help customers take advantage of the benefits of laser material processing. Laser Resources offers complete service and support including factory trained technicians, for each of the products it sells. Laser Resources also welcomes customer enquiries for service, support and application assistance for all laser related systems.
Additionally, Laser Resources offers products from the following companies. Robot Technology – Robot based laser cutting, both stand alone robots and complete robot cells. Precitec - Process heads for Cutting and monitoring units, Welding heads with seam tracking and process monitoring and gluing process monitoring. DILAS - Diode components, arrays and complete fibre coupled units. LaserVision - Safety glasses to meet ANZS 1337.4 plus safety glass, curtains and Laser safety training software.