In this paper, we developed a light emission measurement model and a plasma light intensity distribution estimation scheme to investigate 1) the light intensity distribution of plasma inside the keyhole along the keyhole depth direction; 2) the wavelength contents of keyhole plasma; 3) the effect of plasma plume above the keyhole on the keyhole plasma light emission measured by photodiodes arranged at different viewing angles into the keyhole. The results show that the peak plasma light intensity is located close to the keyhole opening and this peak value increases sharply as the welding speed becomes slower. In addition, the spectroscopic study suggests that wavelength contents of the keyhole plasma are the richest from 320 nm to 440 nm and secondly from 520nm to 580 nm for the test condition. The estimated results also suggest that the plume effect can attenuate more than 60% of the light emission signal measured by a photodiode arranged at 86° aimming angle. More studies are needed to determine more precisely the mechanism of the plume effect.

Topics
Photodiodes, Lasers, Plasma sources, Welding
1.
Arata
,
Y.
,
1987
, “Challenge of Laser Advanced Materials Processing”
Proc. Conf. Laser Advanced Materials Processing LAMP
’87,
Osaka
,
Publ. High Temperature Society of Japan
, pp
3
11
.
Google Scholar
 
2.
Arata
,
Y.
,
Abe
,
N.
,
Oda
,
T.
, and
Tsujii
,
N.
,
1984
,
Proc. ICALEO
84
.
Google Scholar
 
3.
Arata
,
Y.
, and
Miyamato
,
I.
,
1972
, “
Theoretical analysis of weld penetration due to high energy density beam
,”
Trans. JWRI.
, Vol.
1
, pp.
11
16
.
Google Scholar
 
4.
Beersiek
,
J.
,
Poprawe
,
R.
,
Schulz
,
W.
,
Gu
,
H.
,
Mueller
,
R. E.
, and
Duley
,
W. W.
,
1997
, “
On-line monitoring of penetration depth in laser beam welding
,”
Proceedings, ICALEO
97
.
Google Scholar
 
5.
Fabbro
,
R.
,
1992
, “
Beam-Plasma Coupling in Laser Material Processing
,”
Proceedings of LAMP
92
, pp.
305
310
.
Google Scholar
 
6.
Fabbro
,
R.
 and
Poueyo-Verwaerde
,
A.
, “
Modeling of Deep Penetration Laser Welding Process: Application to the Analysis of the Energy Coupling Inside the Keyhole
,”
ICALEO
95
, pp.
7.
Fabbro
,
R.
, and
Poueyo
,
A.
,
1994
, “
Plasma in photon matter interaction during laser material processing
,”
Journal De Physique IV
, Vol.
4
, pp.
C4-3
C4-8
.
https://doi.org/10.1051/jp4:1994401
Google Scholar
Crossref
Search ADS
 
8.
Fabbro
,
R.
, and
Poueyo-Verwaerde
,
A.
,
1995
, “
Modeling of deep penetration laser welding process: application to the analysis of the energy coupling inside the keyhole,
Proc. ICALEO
95
.
Google Scholar
 
9.
Herziger
,
G.
,
Kreutz
,
E.W.
, and
Wissenbach
,
K.
,
1986
, “
Fundamentals of Laser Processing of Materials
,” SPIE, Vol.
668
Laser Processing: Fundamentals, Applications, and Systems Engineering
, pp:
2
10
.
Google Scholar
 
10.
Maiwa
,
T.
,
Miyamoto
,
I.
, and
Mori
,
K.
,
1995
, “Properties of Keyhole Plasma in CO2 Laser Welding,”
Proc. ICALEO ’95
,
Orlando, FL
:
Laser Institute of America
, pp.
708
717
.
Google Scholar
 
11.
Matsunawa
,
A.
,
1990
, “
Physical phenomena and their interpretation in laser materials processing
,”
Proc. ICALEO
91
, pp.
313
324
.
Google Scholar
 
12.
Matsunawa
,
A.
,
Kim
,
J-D
,
Seto
,
N.
,
Mizutani
,
M.
, and
Katayama
,
S.
,
1992
, “
Dynamics of Keyhole and Molten Pool in Laser Welding
,”
Journal of Laser Applications
, Vol.
10
, pp.
247
254
.
https://doi.org/10.2351/1.521858
Google Scholar
Crossref
Search ADS
 
13.
Miyamoto
,
I.
,
Maruo
,
H.
, and
Arata
,
Y.
,
1992
, “
The role of assist gas in CO2 laser welding
,”
L.I.A. ICALEO
, Vol.
44
, pp.
68
74
.
Google Scholar
 
14.
Miyamoto
,
I.
, and
Maruo
,
H.
,
1992
, “
Spatial and temporal characteristics of laser-induced plasma in CO2 laser welding
,”
Proc. Laser Acvanced Materials Processing LAMP
92
, pp.
311
316
.
Google Scholar
 
15.
Miyamoto
,
I.
,
1995
, “
Analysis of evaporation in laser welding
,”
Technology Reports of the Osaka University
, Vol.
45
, pp.
17
26
.
Google Scholar
 
16.
Miyamoto
,
I.
, and
Mori
,
K.
,
1995
, “Development of In-Process Monitoring System for Laser Welding,”
Proc. ICALEO
95
,
Orlando, FL
:
Laser Institute of America
, pp.
759
767
.
Google Scholar
 
17.
Poueyo-Verwaerde
,
A.
,
Fabbro
,
R.
,
Deshors
,
G.
,
de Frutos
,
A. M.
, and
Orza
,
J. M.
,
1993
, “
Experimental study of laser induced plasma in welding conditions with continuous CO2 laser
,”
J. Appl. Phys.
, Vol.
74
, pp.
5773
5780
.
https://doi.org/10.1063/1.355284
Google Scholar
Crossref
Search ADS
 
18.
Poueyo-Verwaerde
,
A.
,
Dabezies
,
B.
, and
Fabbro
,
R.
,
1994
, “
Thermal coupling inside the keyhole during welding process
,”
Laser Materials Processing: Industrial and Microelectronics Applications
, SPIE Vol.
2207
, pp.
175
184
.
Google Scholar
 
19.
Sokolowski
,
W.
,
Herzinger
,
G.
, and
Beyer
,
E.
,
1988
, “
Spectral Plasma Diagnostics in Welding with CO2 Lasers
,”
SPIE
, Vol.
1020
, pp.
96
102
.
Google Scholar
 
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