Laserdyne Announces Improved Process Parameters for Welding Nickel-Based Aerospace Alloys to Meet Stringent Aerospace Airframe and Aero-Engine Requirements
Champlin, Minnesota –Â High quality butt and lap joint welds are possible and practical in a number of common nickel-based aerospace alloys, as demonstrated by Prima Power Laserdyne application engineers. These applications meet the exacting requirements of aerospace, both for airframe as well as for aero-engine applications.
Examples show the desirable crown (convexity) of the weld. Each photo shows the ability to control weld dimensions on both the top and bottom sides of the weld with or without filler metal with no observable porosity within the weld fusion zone.
Using Prima Power Laserdyne's exclusive SmartRamp™ which makes use of LASERDYNE S94P exclusive laser and motion control, this desired profile is maintained even at the end of closed welds.
Integrated laser and motion control with the LASERDYNE S94P laser process control enables production of crack-free welds though use of laser process parameters that take into account the relatively large solidification temperature range of nickel base aerospace alloys and the fact that brittle phases can form when solidification rates are low.
The Importance Of Joint Cleaning Prior To Welding Nickel-Based Aerospace Alloys
It is necessary that weld contaminants be removed by thorough cleaning prior to welding. At high temperatures, nickel alloys are susceptible to embrittlement from sulfur, phosphorus, lead and other low-melting point substances that are often present in materials used in everyday manufacturing processes. For example, grease, oil, paint, cutting fluids, marking crayons and inks, processing chemicals, machine lubricants and temperature-indicating sticks, pellets and lacquers may be found on materials to be welded.
Oxides are especially harmful to the welding process. Those oxides visible on the surface of materials to be welded melt at temperatures significantly higher than the base metal. This causes weld porosity, lack of fusion and other weld defects.
To ensure a successful welding process, a good cleaning of the joints will help ensure a successful and strong weld joint.Â
Correct Fixturing Important In Controlling Thermal Expansion During The Welding Process
The thermal expansion characteristics of nickel-based aerospace alloys are similar to those of carbon steel. When welding, the forces and distortion generated by both materials are similar and require component restraint by a properly designed holding fixture. The restraint provided by a properly designed fixture (Photo 6) can be used to control stresses in the weld. For example, if an appropriate clamping force is used to restrain the material near the weld joint, the expansion created in the weld joint will lead to a compressive force in the weld. This compressive force will in turn lead to upsetting of the weld metal and corresponding reinforcement, or crown, of the top and bottom of the weld, even without filler metal.
In addition to proper clamping, the fixture must also provide proper shielding of the top and back sides of the weld. Shield gas is provided to the top of the weld using Laserdyne's SmartShield™ welding nozzle. Shield gas is provided to the back-side of the weld through a special groove in the fixture beneath the weld.
In summary, the use of Laserdyne's SmartTechniques for laser welding together with proper joint cleaning and component fixturing produces successful welds of nickel-based aerospace alloys.
For more information on laser welding processes using Laserdyne systems, call today 763-433-3700.
Email: LDS.SALES@primapower.com
Website: www.primapower.com  Â
Fax: 763-433-3701
Prima Power Laserdyne, 8600 109th Avenue North, #400, Champlin, Minnesota 55316
