Path calculation, technology and opportunities in dry fiber winding: a review
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In: Advanced Manufacturing: Polymer and Composites Science, Vol. 4.2018, No. 3, 10.10.2018, p. 57-72.
Research output: Contribution to journal › Review article › peer-review
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TY - JOUR
T1 - Path calculation, technology and opportunities in dry fiber winding
T2 - a review
AU - Sofi, Tasdeeq
AU - Neunkirchen, Stefan
AU - Schledjewski, Ralf
PY - 2018/10/10
Y1 - 2018/10/10
N2 - Filament winding is a well-established process to manufacture composite parts. With the advancement of automation and process control technologies, the winding of dry fibers to manufacture a preform for liquid composite molding (LCM) processes is feasible. This study presents an overview of dry fiber winding and explains the most important process aspects. It addresses the application of differential geometry to the winding technique. The formulation of geodesic and non-geodesic equations and their solution is discussed. Besides, non-analytical methods to generate winding trajectories are introduced. The influence of the friction coefficient on process-related parameters is covered. Considering technology trends the study gives an overview of developments in winding systems and equipment. Novel research areas can be identified in the development of new path generation methods, considering detailed friction influences. Fiber depositing and guidance systems must also be adapted. Alternations of the process parameters and their influence on subsequent impregnation processes must be investigated.
AB - Filament winding is a well-established process to manufacture composite parts. With the advancement of automation and process control technologies, the winding of dry fibers to manufacture a preform for liquid composite molding (LCM) processes is feasible. This study presents an overview of dry fiber winding and explains the most important process aspects. It addresses the application of differential geometry to the winding technique. The formulation of geodesic and non-geodesic equations and their solution is discussed. Besides, non-analytical methods to generate winding trajectories are introduced. The influence of the friction coefficient on process-related parameters is covered. Considering technology trends the study gives an overview of developments in winding systems and equipment. Novel research areas can be identified in the development of new path generation methods, considering detailed friction influences. Fiber depositing and guidance systems must also be adapted. Alternations of the process parameters and their influence on subsequent impregnation processes must be investigated.
KW - differential geometry
KW - Dry fiber winding
KW - friction coefficient
KW - geodesic
KW - non-geodesic
KW - path calculation
KW - review
KW - robotic winding
UR - http://www.scopus.com/inward/record.url?scp=85062710184&partnerID=8YFLogxK
U2 - 10.1080/20550340.2018.1500099
DO - 10.1080/20550340.2018.1500099
M3 - Review article
AN - SCOPUS:85062710184
VL - 4.2018
SP - 57
EP - 72
JO - Advanced Manufacturing: Polymer and Composites Science
JF - Advanced Manufacturing: Polymer and Composites Science
SN - 2055-0359
IS - 3
ER -