Laser Beam Machining and it's full Criteria.
By- Engr. Md Abu Bakar Siddique
Industrial and Production Engineer,
Rajshahi University of Engineering and Technology,
Bangladesh
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Laser Beam Machining | LBM | Explained with Video
1. LASER BEAM
MACHINING Submitted by
1
Md. Abu Bakar Siddique
Student
Dept. of Industrial and Production Engineering
Rajshahi University of Engineering and
Technology, Rajshahi, Bangladesh
3. What is Laser
LASER is the acronym for Light Amplification
by Stimulated Emission of Radiation.
Laser is a device which generates or amplifies
light.
Stimulated emission of electromagnetic
radiation.
Coherent, monochromatic, directional and high
power laser beam is used.
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7. Laser Beam Temporal Modes
Continuous Wave (CW)
commonly results in the
highest cutting speed & better
surface finish. Roughness is
determined by thickness,
alloy content, etc.
Pulsed beam results in the
fewest thermal effects & least
distortion of work piece. With
drilling overlapping holes (see
right), it’s possible to cut with
smoother surface
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9. Gas Laser 9
The generally used gas lasers are
• Helium – Neon
• Argon
• CO2 etc.
Lasers can be operated in continuous mode or pulsed
mode. Typically CO2 gas laser is operated in continuous
mode and Nd – YAG laser is operated in pulsed mode.
11. Solid State Laser 11
Ruby which is a chromium–alumina alloy
having a wavelength of 0.7 μ m
Nd-glass lasers having a wavelength of 1.64
μ m.
Nd-YAG laser having a wavelength of 1.06 μ
m
Solid-state lasers are commonly of the
following type
These solid-state lasers are generally used
in material processing.
12. Excimer Laser
Uses a combination of an inert
gas and reactive gas
Excimer is form of Ultraviolet
Chemical Laser
Excimer is short for ‘excited
dimer’
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Source: Google Images
13. Dye & Semiconductor Laser
Dye Laser
use complex
organic dyes,
such as
rhodamine 6G
Semiconductor
Laser
sometimes
called diode
lasers
very small and
use low
power.
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14. Laser Beam Machining
Used light energy from a
laser to remove material by
vaporization and ablation
Energy is concentrated
optically
Laser emits either
continuous or pulsed light
beam
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Source: Google Images
16. Operation: Laser Cutting
Cutting starts by drilling a hole by moving
beam
Cutting speed depends on material and
thickness
Both pulsed and continuous laser is used
Thickness ranges from 0.5-1 inch
Used for cutting complex geometry and
for clean cutting operation
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Source: sciencedirect.com
19. Material Removal Types of Laser
Cutting
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• low vaporization temperature in
materials.Vaporization
• Material is melted & ejected by an
inert gas jet.Fusion
• dross is no longer a metal, but an
oxide in reactive fusion.Reactive Fusion
• Mechanical snapping along with
scribed line occur simultaneously.Scribing
20. Laser Cladding
Used to improve surface quality
by applying a corrosion resistant
layer on product
Laser Beam is used to create a
shallow melt pool
Metal powder is supply using an
inert gas flow
Application
Chemical industry
Mining and marine application
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22. Limitations
High maintenance cost
Not for mass metal removal processes
Requires greater control of joint tolerances
Presence of Heat Affected Zone
Consumes much energy
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