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Solid phase by-products of laser material processing
The analysis of the particulate generated by laser material removal processes is important not only from a health aspect but is also useful to understand the underlying process. The mechanisms of particle formation during CO2 laser cutting of mild steel have been established and the influence of the...
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Format: | Dissertation |
Language: | English |
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Online Access: | Request full text |
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Summary: | The analysis of the particulate generated by laser material removal
processes is important not only from a health aspect but is also
useful to understand the underlying process.
The mechanisms of particle formation during CO2 laser cutting of
mild steel have been established and the influence of the laser
processing parameters on the particles is discussed. Hydrodynamic
instabilities in the melt zone produce airborne particulate during
cutting. Larger particulate tend to be formed by shearing of the melt
film (50-1OOum) and by pressure gradients (>1OOum ) within the melt.
Additionally the causes of secondary droplet break-up have been
addressed. The investigation of these mechanisms enables an
enhanced understanding of the cutting process.
Investigation of the particle characteristics yields information
regarding the health of the laser process. The size distribution of the
particulate has been analysed using laser diffraction particle sizing
and is shown to relate to the process parameters (cutting velocity,
laser power) as well as the product quality parameters (cut surface
roughness, kerf width, striation frequency, etc.). Additionally, analysis
of the particle morphology using scanning electron microscopy
establishes that the particulate generated are often thin-walled hollow
spheres.
The information provided by the experimental data and the
knowledge of the mechanisms of particle formation allows a process
control methodology to be applied. In order to implement the system,
a particle-sizing instrument has been designed. This instrument is
based around a linescan CM OS sensor and is designed to tailor for
the needs of an online, real-time control system. The system is
entirely optical in nature and works on the principle of laser
diffraction. Much of the mathematical processing is done offline
enabling it to display size distributions in real-time.
Much of the literature, available to date, regarding the solid byproducts
of laser cutting use techniques of particle capture and
analysis that are not ideal nor informative enough. In order for a realtime
particle analysis system to be successfully implemented, the
method of capture and the selection of the optimum size band have
been thoroughly investigated.
Additionally, the particle formation during concrete scabbling was
investigated. Concrete was scabbled using a 1 kW C02 laser and the
particles ejected from the surface were investigated for particle size
and morphology. Scabbling produces particles w |
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