2017
DOI: 10.1002/pc.24585
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An experimental method for characterizing unsaturated 1D flow in tubular braided preforms during bladder‐assisted resin transfer molding

Abstract: The work presented in this paper addresses the development of an efficient approach to investigate the unsaturated in‐plane impregnation behavior of tubular braided reinforcement materials in a bladder‐assisted resin transfer molding process. The basic idea is to record the macroscopic flow front advancement during a pressure‐driven injection of a test fluid by using a transparent monolithic mold and optical measurement methods. The experimental setup further comprises sophisticated process control to accompli… Show more

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Cited by 2 publications
(2 citation statements)
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“…The material permeability data are shown in table 2. The permeability of each material was experimentally obtained based on the flow-front velocity measurement using permeability measurement device as shown in figure 4 [36][37][38]. The manufacturer's technical data was referred for the resin viscosity value as shown in figure 5.…”
Section: Resultsmentioning
confidence: 99%
“…The material permeability data are shown in table 2. The permeability of each material was experimentally obtained based on the flow-front velocity measurement using permeability measurement device as shown in figure 4 [36][37][38]. The manufacturer's technical data was referred for the resin viscosity value as shown in figure 5.…”
Section: Resultsmentioning
confidence: 99%
“…The most common model to describe fluid flow through a porous material is Darcy's law; it correlates the volume‐averaged flow rate ν with permeability K , pressure gradient ∇P , and viscosity η – see Equation (). [ 10,131,205–207 ] Viscosity can be defined as the fluid's resistance to flow. [ 208 ] A permeability equation based on the research of Kozeny and Carman [ 184,209–211 ] (Equation ()) allows to estimate the permeability in longitudinal direction via the fiber volume ratio ( e F ), the fiber radius ( r F ), and the Kozeny constant k , a geometric factor. υ=KPη, K=rF21eF34keF2. …”
Section: Main Effects On the Roving During Processingmentioning
confidence: 99%