Simulation of 3D interlock composite preforming

Luycker, Emmanuel de; Morestin, Fabrice; Boisse, Philippe; Marsal, David

doi:10.1016/j.compstruct.2008.06.005

Cited by 121 publications

(68 citation statements)

References 39 publications

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“…The hypo-versatility used to display the transverse properties can be advantageously reached out to elasto-pliancy [10]. The quickly advancing advancement of new capacity incorporating lightweight structures prompts an expanding utilization of weight lessened arrangements with superior material composites.…”

Section: Jerrin Thadathil Varghese Sahith Reddy Madara and M Chithiramentioning

confidence: 99%

“…Ballistic effect tests were performed to comprehend the harm impact of the twofold dispersed aluminum plates affected by the icy iso statically squeezed and sintered PTFE/Al/W responsive shot with a thickness of 7.8 g/cm 3 . While affecting the twofold dispersed plates at the speeds of inexact 710m/s~950m/s, the receptive shot will be started to deflagrate amid infiltration and the stopping harm design was shaped on the front plate.…”

Section: Damaged Materials Related Issuesmentioning

confidence: 99%

“…These structures have a splendid preferred standpoint over secured materials because of their dynamite insurance/protection from layer delamination [3].…”

Section: Introductionmentioning

confidence: 99%

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Review on the Characteristical behavior of Advanced 3D Spacer Composites

Varghese¹

2017

IJMPERD

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The three dimensional spacer textures, comprise of two bi-directional woven texture surfaces, which are mechanically associated with vertical sewed heaps. The three dimensional spacer textures can be made of glass fiber, carbon fiber or basalt fiber. The Three Dimensional Composites are classified based on the different factors depending on the orientation of the yarn, the yarn sets and the geometry. The three dimensional composites have multiple layers and hence they overcome delamination, which is a common defect in two dimensional composites. Nevertheless, these composite materials have relatively lower transverse properties and also, have size and thickness limitations.This literature reviews on several important published literatures on three dimensional composite materials. The review studies the numerous effects that lead to the failure of the composite material.

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Section: Jerrin Thadathil Varghese Sahith Reddy Madara and M Chithiramentioning

confidence: 99%

Section: Damaged Materials Related Issuesmentioning

confidence: 99%

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Review on the Characteristical behavior of Advanced 3D Spacer Composites

Varghese¹

2017

IJMPERD

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“…The simulation of a thick twisted plate made of interlock textile reinforcement is shown figure 24. The formulation of these finite elements for interlock forming simulations is given in (De Luycker et al, 2009). …”

Section: Extension To 3d Interlock Textile Reinforcementsmentioning

confidence: 99%

Simulations of Composite Reinforcement Forming

Boisse¹

2010

Woven Fabric Engineering

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“…Forming of textile preform stacking has been described by some studies as this step has a strong influence on the resin flow impregnation, by the modification on the permeability [3][4][5][6][7], and on the characteristics of the final composite part [8,9]. In case of complex preforming shapes, the consequences of the choice of the process parameters, as the blank holder pressure or punch's shape, on the feasibility to preform fabrics are described by numerical [10][11][12][13][14][15] or experimental approaches [16][17][18][19][20][21][22]. These process parameters influence the deformed state of the preform and consequently the generation of defects.…”

Section: Introductionmentioning

confidence: 99%

Investigation about the Manufacturing Technique of the Composite Corner Fitting Part

Wang

Legrand

Soulat

2014

Autex Research Journal

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Textile composite reinforcement forming has been employed in many aeronautic industries as a traditional composite manufacturing process. The double-curved shape manufacturing may be difficult and can lead to defects when the composite parts have high curvatures and large deformations. Compared with the textile composites forming, surface 3D weaving can demonstrate directly the geometry of final composite part without the stages involved in 2D product. The weaving in three directions is completely designed and warp and weft yarns are always perpendicular to the surfaces of the final 3D ply. These two manufacturing techniques are applied to produce an important piece of aircraft: the corner fitting. The 3D weaving results are compared with the experimental forming by a punch as same geometry as the corner fitting part. The conveniences and limits of each technique are investigated. The comparisons show particularly a perfect final 3D fabric with homogeneous fibre volume fraction performed by the surface 3D weaving technique.

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Simulation of 3D interlock composite preforming

Cited by 121 publications

References 39 publications

Review on the Characteristical behavior of Advanced 3D Spacer Composites

Review on the Characteristical behavior of Advanced 3D Spacer Composites

Simulations of Composite Reinforcement Forming

Investigation about the Manufacturing Technique of the Composite Corner Fitting Part

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