Geometrical influences
on multi-pass laser forming
J.
Phys. D: Appl. Phys. 39 (2006) 382–389
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S
P Edwardson, E Abed, K Bartkowiak, G Dearden and K G Watkins
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- Laser
Group, Department of Engineering, University of Liverpool, Brownlow
Street, Liverpool L69 3GH, UK
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Abstract:
Laser
forming (LF) offers the industrial promise of controlled shaping
of metallic and non-metallic components for prototyping, the
correction of design shape or distortion and precision adjustment
applications. The potential process advantages include precise
incremental adjustment, flexibility of application and no mechanical
‘spring-back’ effect. To date there has been a considerable
amount of work carried out on two-dimensional LF, using multi-pass
straight line scan strategies to produce a reasonably controlled
bend angle in a number of materials, including aerospace alloys.
A key area, however, where there is a limited understanding,
is the variation in bend angle per pass during multi-pass LF
along a single irradiation track; in particular, the decrease
in bend angle per pass after many irradiations for a given set
of process parameters. Understanding this is essential if the
process is to be fully controlled in a manufacturing environment.
The research presented in this paper highlights the current
theories as to why this occurs and proposes a further reason
based on the geometrical effects of the component deformation,
which in turn influences the process parameters per pass. This
theory is confirmed through empirical analysis of the 2D LF
process.
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