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 Transmission welding using laser beams offers significant advantages over conventional joining technologies in welding plastics. It is especially suited for joining plastic materials with different optical absorption at the laser wavelength. The laser light penetrates the transparent component and is absorbed by the non-transparent component where it is converted into heat. The two plastics melt at the interface and welding is accomplished by external pressure applied by a workhold fixture.
| PROCESS
PARAMETER |
| temperature |
T
|
[êC]
|
| laser
power |
PL
|
[W]
|
| welding
time |
t
|
[s]
|
| focus
spot size |
s
|
[mm2]
|
| welding
pressure |
p
|
[Pa]
|
| welding
speed |
v
|
[mm/s]
|
|
TRANSMISSION
WELDING
|
BUTT
WELDING
|
|
|
|
| The joints' geometry must be matched to the materials and parts welded, e.g. molded and formed parts, foils, semi-products, etc. |
Materials
Practically any thermoplasts can be laser-welded. This group of plastics includes:
-
ABS,
PA, PC, PE, PMMA, PS, SAN and most other thermoplastics
- Thermoplastic
elastomers
- Metal / plastic
joints
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|
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