Fiber reinforced polymers are applied more and more in the aircraft as well as in the automobile industry. The possibility for spherical variation of structure properties by the adaption of fiber layers and fiber orientation within the material, enables a wide range of applications. New developments for processing of near-net-shape parts, which are not even, require new strategies for final contour cutting. Water jet processes as well as milling or drilling processes show limitations. Within the paper the remote laser technology will be introduced as a force–free thermal cutting process with minimized heat affected areas.

In addition to some basic research, new application results will be shown to visualize the great potential of this technology. TFP (Tailored Fiber Placement) – structures are characterized by highest weight-based strengths. This process, however, requires special after-treatment steps. The use of scanner based processing systems enables a flexible laser ablation of the fixation layer and the waste margin without additional mechanical treatment.

Topics
Aircraft, Laser ablation, Polymers
1.
Biermann
,
D.
;
Hufenbach
,
W.
;
Seliger
,
G.
:
Serientaugliche Bearbeitung und Handhabung moderner faserverstärkter Hochleistungswerkstoffe – Untersuchung zum Forschungs-und Handlungsbedarf. Dresden: Progress Media
,
2008
. ISBN 978-3-00-026217-3
Google Scholar
 
2.
Mazumder
,
S.
: Composites Manufacturing - Boca Raton,
London, NewYork, Washington, D.C
. :
CRC Press
,
2001
. – ISBN 0–8493–0585–3
3.
Plath
,
A.
,
Niederstadt
,
T.
,
Täger
,
O.
:
An automotive Prospective on the use of Carbon fibres
.
6th International CFK-Valley Stade Convention
.
12–13 June
,
STADEUM Stade, Germany
,
2012
.
Google Scholar
 
4.
Yamaguchi
,
Y.
:
Advanced Composite Materials for Aircrafts in Japan
.
1st International Symposium on Lasers Processing for CFRP and Composites
,
Yokohama, Japan
,
Apr. 26 – Apr. 27, 2012
5.
TU
Dresden
: Textile-reinforced composite components for function-integrating multi-material design in complex lightweight applications.
Collaborative Research Centre SFB 639
,
Dresden, Germany
,
2004–2015
Google Scholar
 
6.
Schade
,
M.
;
Diestel
,
O.
;
Cherif
,
Ch.
;
Krahl
,
M.
;
Hufenbach
,
W.
;
Franeck
,
J.
;
Ulbricht
,
V.
:
Entwicklung und technologische Umsetzung von komplex geformten Leichtbau-Modulträgern aus textilverstärkten Thermoplasten. Composites in Automotive & Aerospace - 5. Internationaler Fachkongress für Composites, München, 14.-15. Oktober
,
2009
.
Google Scholar
 
7.
Hufenbach
,
W.
;
Adam
,
F.
;
Krahl
,
M.
;
Modler
,
K.-H.
;
Hanke
,
U.
: Fertigungsstrategien für die Herstellung komplexer Strukturbauteile aus Hybridgarn-Textil-Thermoplast- (HGTT-) Halbzeu-gen. 13.
Dresdner WZM-Fachseminar
,
Dresden
,
2008
.
8.
Lütke
,
M.
;
Klotzbach
,
A.
;
Wetzig
,
A.
;
Beyer
,
E.
:
Laserschneiden von Faserverbundwerkstoffen
.
Laser Technik Journal (Weinheim). März
2009
.
Google Scholar
 
9.
Schübel
,
K.
:
Performance Polymers. Evonik Degussa GmbH, Marl
,
2008
.
Google Scholar
 
10.
Klotzbach
,
A.
,
Schwarz
,
T.
,
Bartels
,
F.
,
Wetzig
,
A.
,
Beyer
,
E.
:
High dynamic axes systems for laser processing “on the fly Fifth International WLT-Conference on Lasers in Manufacturing
2009
.
Munich
,
June 2009
.
11.
EU – project: “Embroidery” Development of energy efficient/lightweight composite parts and tooling based on Tailored Fibre Placement technology/self heating technology
. 01/2011 – 12/2012.
12.
Spickenheuer
,
A.
;
Schulz
,
M.
;
Gliesche
,
K.
;
Heinrich
,
G.
:
Using tailored fibre placement technology for stress adapted design of composite structures. Plastics, Rubber and Composites
.
Macromolecular Engineering
37
,
227
232
September
2008
.
Google Scholar
 
This content is only available via PDF.
© 2012 Laser Institute of America.
2012
Laser Institute of America
You do not currently have access to this content.