Laser Welding

Thick Sections

formation of a deep penetration keyhole laser weld

A laser beam can be easily focused to very high power densities, ca 10 6 W/cm 2 . At these intensities, when laser welding metal, a column of ionised metal vapour which forms below the beam impingement point, absorbs the incoming laser energy, producing narrow, deep weld profiles. This 'keyhole' welding process is more efficient than a process where the weld shape is governed by thermal conduction. CO 2 , Nd:YAG and fibre lasers can achieve such power densities, with the most powerful lasers capable of welding 25mm C-Mn steel in a single pass.


Benefits and Application of Laser Welding

Heavy construction, shipbuilding, oil and gas, power, process plant and aerospace industry sectors have the need for welding thick sections and are potential markets for laser welding. There are many benefits : laser butt welds
cross section of laser butt weld in thick section
  • Deep narrow welds
  • Low heat input
  • Minimal distortion
  • High joint completion rates
  • Joint design flexibility
  • Minimal use of consumable
  • Ease of automation
TWI is working on welding parameter and process development of CO 2 , Nd:YAG and fibre lasers at powers up to 7kW. At these powers welding of thick section material is possible at high speeds, for example 8mm thick C/Mn steel can be welded in a single pass at speeds up to 1.5m/min.

Contact:

Laser and Sheet Processes Group
TWI Ltd
Granta Park
Gt Abington
Cambridge, CB21 6AL (previously CB1 6AL), UK

email: lasers@twi.co.uk
Tel: +44 (0)1223 899000
Fax: 01223 890661		 Laser Dept operating area
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