Mullite-alumina is an advanced ceramic with numerous technological aplications due to its excellent resistance to heat, wear and corrosion. The inherent properties of the mullite-alumina such as: very high hardness and brittleness make the machining of the mullite-alumina a very hard work; being noisy, powdery and unsafe for the worker.

In a previous work we demonstrated that a pulsed Nd:YAG laser connected to an optical fiber is an efficient tool for the cutting of mullite-alumina plates.

In this paper we present the results of the work carried out to understand the role played by the assistant gas. A comparison between the use of a conventional coaxial conical nozzle and an off-axis supersonic nozzle is presented.

The results obtained show that the use of a supersonic nozzle leads to a more efficient gas flow dragging of the molten material out of the kerf Thus, a certain increase in the quality of the cut can be obtained by using the supersonic nozzle.

Topics
Optical fibers, Laser cutting, Oxides, Fluid flows, Quasi one dimensional flows, Corrosion, Mullite, Ceramics
1.
J.
Pou
,
F.
Quintero
,
F.
Lusquiños
,
M.
Larosi
,
R.
Soto
, and
M.
Pérez-Amor
,
Nd:YAG laser cutting of mullite-alumina
,
Proceedings of ICALEO’99
,
Laser materials processing, Laser Institute of America
, Vol.
87
, (
1999
), C-
166
175
.
Google Scholar
 
2.
M. J.
Zucrow
,
J. D.
Hoffman
,
Gas Dynamics
,
John Wiley & Sons
. (
1976
).
Google Scholar
 
3.
J.
Fieret
,
M. J.
Terry
,
B. A.
Ward
,
Aerodynamic interactions during laser cutting
,
Laser Processing: Fundamentals, Applications and Systems Engineering, SPIE
, Vol.
668
, (
1986
),
53
62
.
Google Scholar
 
4.
J.
Fieret
,
B. A.
Ward
,
Circular and non-circular nozzle exits for supersonic gas jet assist in CO2 laser cutting
,
Proc. 3rd Intl. Conf. On Lasers in Mfc. (ICLIM3)
, (
1986
),
45
54
.
Google Scholar
 
5.
A. V.
La Rocca
,
L.
Borsati
,
M.
Cantello
,
Nozzle design to control fluid-dynamics effects in laser cutting
,
SPIE
, Vol.
2207
,
354
368
.
6.
H.
Zefferer
,
D.
Petring
,
E.
Beyer
,
Investigations of the gas flow in laser beam cutting
,
DVS-Bericht, 135, DVS-Verlag
, (
1991
),
210
214
.
Google Scholar
 
7.
D.
Leidinger
,
D.
Schuocker
,
Investigations of the gas flow of conical-cylindrical and supersonic nozzles in a laser cut kerf
,
SPIE
, Vol.
2502
, (
1995
),
577
582
.
Google Scholar
 
8.
H. C.
Man
,
J.
Duan
,
T. M.
Yue
,
Behaviour of supersonic and subsonic gas jets inside laser cut kerfs
,
Proc. Intl. Congrs. On Applications of Lasers and Electro-Optics. (ICALEO ‘97)
, (
1997
), Section B
27
36
.
Google Scholar
Crossref
Search ADS
 
9.
A. D.
Brandt
,
S. D.
Scroggs
,
G. S.
Settles
,
Effect of nozzle orientation on the gas dynamics of inert-gas laser cutting of mild steel
,
Journal of Laser Applications
,
9
, (
1997
),
269
277
.
https://doi.org/10.2351/1.4745469
Google Scholar
Crossref
Search ADS
 
10.
Η. O.
Ketting
,
F. O.
Olsen
,
High pressure Off-axis laser cutting of stainless steel and aluminium
,
Proc. LAMP ’92
, (
1992
),
607
612
.
Google Scholar
 
11.
H. C.
Man
,
J.
Duan
,
T. M.
Yue
,
Design and characteristic analysis of supersonic nozzles for high pressure laser cutting
,
Journal of Materials Processing Technology
,
63
, Elsevier, (
1997
),
217
222
.
https://doi.org/10.1016/S0924-0136(96)02627-1
Google Scholar
Crossref
Search ADS
 
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