Analytical modeling of textile parameters and draping behavior of 2D biaxial braided sleevings
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In: Polymers & Polymer Composites (Polymers and polymer composites), Vol. 25.2017, No. 5, 31.05.2017, p. 315-326.
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TY - JOUR
T1 - Analytical modeling of textile parameters and draping behavior of 2D biaxial braided sleevings
AU - Schillfahrt, Christian
AU - Schledjewski, Ralf
PY - 2017/5/31
Y1 - 2017/5/31
N2 - Biaxial braided sleevings are commonly used for producing hollow complex-shaped composite parts through bladder inflation moulding. To enable feasibility analyses, part design and the prediction of mechanical properties of the resulting fibre-reinforced component, various geometrical and weight-related parameters of the braided fabric in its draped state must be known, such as fibre orientation, fibre volume fraction and areal weight. In the present work, a comprehensive analytical model describing fabric formation, preform architecture and weight as well as the change of relevant textile parameters of a biaxial braided sleeving during draping is established. The principal modelling approach is based on sporadic investigations found in literature and was substantially expanded to compile an extensive collection of relationships for the utilisation in a sleeving-on preforming process. Furthermore, a critical overview about the state of the art in the area of geometrical modelling of tubular 2D braided structures and a comparison of the identified procedures in regard to the desired application is given.
AB - Biaxial braided sleevings are commonly used for producing hollow complex-shaped composite parts through bladder inflation moulding. To enable feasibility analyses, part design and the prediction of mechanical properties of the resulting fibre-reinforced component, various geometrical and weight-related parameters of the braided fabric in its draped state must be known, such as fibre orientation, fibre volume fraction and areal weight. In the present work, a comprehensive analytical model describing fabric formation, preform architecture and weight as well as the change of relevant textile parameters of a biaxial braided sleeving during draping is established. The principal modelling approach is based on sporadic investigations found in literature and was substantially expanded to compile an extensive collection of relationships for the utilisation in a sleeving-on preforming process. Furthermore, a critical overview about the state of the art in the area of geometrical modelling of tubular 2D braided structures and a comparison of the identified procedures in regard to the desired application is given.
KW - Biaxial braided sleeving
KW - analytical model
KW - draping
KW - preform architecture
KW - textile parameters
KW - Biaxial braided sleeving
KW - analytical model
KW - draping
KW - preform architecture
KW - textile parameters
UR - http://www.smithersrapra.com/publications/journals-and-subscriptions/polymers-and-polymer-composites
U2 - 10.1177/09673911170250050
DO - 10.1177/09673911170250050
M3 - Article
VL - 25.2017
SP - 315
EP - 326
JO - Polymers & Polymer Composites (Polymers and polymer composites)
JF - Polymers & Polymer Composites (Polymers and polymer composites)
SN - 0967-3911
IS - 5
ER -