Two laser transmission welding experiments involving polyvinyl chloride are presented that aim to validate a previously presented welding model while helping to further understand the relationship between welding parameters and weld quality. While numerous previous research papers have presented the results of laser welding experiments, there exists minimal work validating models of the welding process. The first experiment explores the interaction of laser power and welding velocity while the second experiment explores the influence of clamping pressure. Using the weld width as the primary model output, the agreement between the welding experiments and the model have an average error of 5.6%. This finding strongly supports the validity of the model presented in Part I of this two paper set (Van de Ven and Erdman, 2007, ASME J. Manuf. Sci. Eng., 129, pp. 849–858). Additional information was gained regarding the operating window for laser transmission welding and the thermal decomposition of polyvinyl chloride. Clamping pressure was found to provide a small, but not statistically significant, influence on the visual appearance, weld width, and weld strength.

Issue Section:
Research Papers
Keywords:
laser welding, modeling, PVC, laser beam welding, polymers, clamps
Topics:
Laser welding, Lasers, Pressure, Welding, Errors, Welded joints
1.
Van de Ven
,
J.
, and
Erdman
,
A.
, 2006, “
Laser Transmission Welding of Thermoplastics—Part I: Temperature and Pressure Modeling
,”
ASME J. Manuf. Sci. Eng.
1087-1357,
129
, pp.
849
858
.
Crossref
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2.
Becker
,
F.
, and
Potente
,
H.
, 2002, “
A Step Towards Understanding the Heating Phase of Laser Transmission Welding in Polymers
,”
Polym. Eng. Sci.
0032-3888,
42
(
2
), pp.
365
374
.
Crossref
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3.
Van de Ven
,
J.
, and
Erdman
,
A.
, 2006, “
Near-Infrared Laser Absorption of Polyvinylchloride at Elevated Temperatures
,”
J. Vinyl Addit. Technol.
1083-5601, accepted.
4.
Kennish
,
Y.
,
Shercliff
,
H. R.
, and
McGrath
,
G. C.
, 2002, “
Heat Flow Model for Laser Welding of Polymers
,”
Proceedings of the Society of Plastics Engineers’ Annual Technical Conference
, San Francisco, CA, May 5–9,
1
, pp.
1132
1136
.
5.
Baylis
,
B.
,
Prabhakaran
,
R.
,
Bates
,
P.
,
Huang
,
Y. P.
,
Xu
,
S. X.
, and
Watt
,
D.
, 2003, “
Pyrometer Measurements During Laser Welding of Thermoplastic Elastomers to Polypropylene and of Nylon to Itself
,”
Proceedings of the Society of Plastics Engineers’ Annual Technical Conference
,
Nashville, TN
, May 4–8,
1
, pp.
1111
1115
.
6.
Herzong
,
D.
,
Barcikowski
,
S.
,
Fargas
,
M.
,
Hustedt
,
M.
,
Sattari
,
R.
, and
Bunte
,
J.
, 2004, “
Laser Welding of Wood and Natural Fiber Composites with Thermoplastics
,”
Proceedings Global Wood and Natural Fiber Composites Symposium
, Kassel, Germany, April 27–28.
7.
Abed
,
S.
,
Laurens
,
P.
,
Carretero
,
C.
,
Deschamps
,
J. R.
, and
Duval
,
C.
, 2001, “
Diode Laser Welding of Polymers: Microstructures of the Welded Zones for Polypropylene
,”
Proceedings Laser Institute of America, 20th International Congress on ICALEO 2001
,
Jacksonville, FL
, Oct. 15–18, pp.
1499
1507
.
8.
Prabhakaran
,
R.
,
Kontopoulou
,
M.
,
Zak
,
G.
,
Bates
,
P.
, and
Baylis
,
B.
, 2004, “
Laser Transmission Welding of Unreinforced Nylon 6
,”
Proceedings Proceedings of the Society of Plastics Engineers’ Annual Technical Conference
, Chicago, IL, May 16–20,
1
, pp.
1205
1209
.
9.
Kagan
,
V. A.
, and
Pinho
,
G. P.
, 2004, “
Laser Transmission Welding of Semicrystalline Thermoplastics–Part II: Analysis of Mechanical Performance of Welded Nylon
,”
J. Reinf. Plast. Compos.
0731-6844,
23
(
1
), pp.
95
107
.
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10.
Kagan
,
V. A.
, and
Woosman
,
N. M.
, 2004, “
Efficiency of Clearwelding Technology for Polyamides
,”
J. Reinf. Plast. Compos.
0731-6844,
23
(
4
), pp.
351
359
.
Crossref
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11.
Potente
,
H.
,
Becker
,
F.
,
Fiegler
,
G.
, and
Korte
,
J.
, 2001, “
Investigations Towards Application of a New Technique on Laser Transmission Welding
,”
Weld. World
0043-2288,
45
(
5
), pp.
2
7
.
12.
Grewell
,
D.
, 1999, “
Applications with Infrared Welding of Thermoplastics
,”
Proceedings ANTEC
, New York,
1
, pp.
1411
1415
.
13.
Juvinall
,
R. C.
, and
Marshek
,
K. M.
, 2005,
Fundamentals of Machine Component Design
,
Wiley
, Hoboken, NJ.
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Copyright © 2007
 by American Society of Mechanical Engineers
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