Effect of polyamide-6,6 (PA 66) nonwoven veils on the mechanical performance of carbon fiber/epoxy composites

Beylergi̇l, Bertan; Tanoğlu, Metin; Aktaş, Engin

doi:10.1016/j.compstruct.2018.03.097

Cited by 94 publications

(75 citation statements)

References 36 publications

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“…31 For instance, Beylergil et al. 25 studied the tensile and compressive properties of a carbon/epoxy [0 o ] 4 laminate interleaved with the 17 and 50 gsm nylon 6,6 nonwoven fabrics. They showed that the tensile and compressive strength decreased with improved areal weight density by about 41% and 13%, respectively.…”

Section: Resultsmentioning

confidence: 99%

“…As previously stated, although the microfiber interleaving improves Mode-I fracture toughness significantly, it deteriorates in-plane mechanical properties of composite laminates due to the reduced fiber volume fraction, thickness increase and formation of voids. 25 In nanofiber interleaving technique, it is possible to improve not only delamination resistance but also in-plane mechanical properties of composite laminates. This win-win situation is the unique characteristic of nanofiber interleaving technique.…”

Section: Resultsmentioning

confidence: 99%

“…Interleaving heavy microfiber nonwoven fabrics increases the effectiveness of the interleaf material; however, it deteriorates the other in-plane mechanical properties such as tensile, compressive and flexural properties. 31 For instance, Beylergil et al 25 studied (1/(1-median rank) (ln(1/(1-median rank) the tensile and compressive properties of a carbon/epoxy [0 o ] 4 laminate interleaved with the 17 and 50 gsm nylon 6,6 nonwoven fabrics. They showed that the tensile and compressive strength decreased with improved areal weight density by about 41% and 13%, respectively.…”

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Experimental and statistical analysis of carbon fiber/epoxy composites interleaved with nylon 6,6 nonwoven fabric interlayers

Beylergi̇l

Tanoğlu

Aktaş

2020

Journal of Composite Materials

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Thermoplastic interleaving is a promising technique to improve delamination resistance of laminated composites. In this study, plain-weave carbon fiber/epoxy composites were interleaved with nylon 6,6 nonwoven fabrics with an areal weight density of 17 gsm. The carbon fiber/epoxy composite laminates with/without nylon 6,6 nonwoven fabric interlayers were manufactured by VARTM technique. Double cantilever beam fracture toughness tests were carried out on the prepared composite test specimens in accordance with ASTM 5528 standard. The experimental test data were statistically analyzed by two-parameter Weibull distribution. The results showed that the initiation and propagation fracture toughness Mode-I fracture toughness of carbon fiber/epoxy composites could be improved by about 34 and 156% (corresponding to a reliability level of 0.50) with the incorporation of nylon 6,6 interlayers in the interlaminar region, respectively. The results also revealed that the percent increase in the propagation fracture toughness value was 67 and 41% at reliability levels of 0.90 and 0.95, respectively.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Experimental and statistical analysis of carbon fiber/epoxy composites interleaved with nylon 6,6 nonwoven fabric interlayers

Beylergi̇l

Tanoğlu

Aktaş

2020

Journal of Composite Materials

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“…[18] The above methods are effective on fiber-reinforced polymer composites, but complicated in fabrication, high in cost, and even cause loss of in-plane mechanical properties. [19,20] An approach that is excellent to alleviate the above challenges is matrix modification by adding particles. [21] Matrix modification by adding a proper amount of nano or micro particles can significantly improve the overall properties of the composites.…”

Section: Introductionmentioning

confidence: 99%

Investigation of toughening effect of biomass‐derived SiCB on basalt fiber‐reinforced unsaturated polyester composites

2020

Polymer Composites

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Fiber-reinforced polymer composites are outstanding lightweight structural materials, so that they are widely used in automotive, marine, medical, defense, and aerospace fields. However, when subjected to structural loads, they are prone to failure due to their inherent brittleness and the susceptibility to delamination, which can lead to the loss of the load-bearing capacity of composite materials. This article proposes an effective solution of innovatively using the silicon carbon black, a kind of sustainable green biomass material derived from rice husks, to toughen the composites. When the content of silicon carbon black (SiCB) added to the composites is 1.5 wt%, the maximum values of flexural strength, bending energy absorption, and the mode II interlaminar fracture toughness values are 333 MPa, 6.10 J, and 1591 J/m 2 , respectively, corresponding to the improvement percentage of 138%, 120%, and 216%. The addition of SiCB significantly improved the bending properties and the mode II interlaminar fracture toughness of composites. The toughening mechanisms of SiCB were studied based on the fracture surface morphologies of the composites.

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“…10 A thermoplastic interleaved method which is inserted with a veil, nanofiber, nano-web, or microparticles at the interlaminer region have been adopted to interrupt crack propagation in fiber reinforced composites. [11][12][13][14][15] Liu et al 16 performed compression after impact (CAI) and transverse flexural experiments on Polyamide (PA)/ carbon epoxy and PA/Polyethersulfone (PES)/carbon epoxy composite laminates. The enhanced interlaminar properties were attributed to the toughening interlayer of the PA microparticles and strong interfacial adhesion between the PA microparticles and epoxy matrix.…”

Section: Introductionmentioning

confidence: 99%

Effect of toughened polyamide/carbon fiber interlace braid fabric on the mechanical performance of CFRP laminates

Eun

Kim

Chon³

2020

Advanced Composites Letters

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Delamination resistance and epoxy matrix brittle fracture have been the main issues in carbon/epoxy composites laminates. Various studies have been reported to complement the brittle fracture of epoxy matrix. Conventional methods of fabricating toughened carbon/epoxy composite laminates were thermo-plastic veils and films interleaving methods, directly toughening the matrix resin and dispersing nanoparticles in the matrix. In this study, the carbon/epoxy composites laminates were manufactured using carbon fiber/polyamide fiber braided fabrics. The chemical interactions between polyamide and epoxy matrix resin were investigated by Fourier transform infrared spectroscopy, which resulted in ring opening of the epoxide group by the amide group. The compression after impact strength and the interlaminar toughness of the carbon/epoxy composite laminate were increased by 31%, and the strain energy release rates were increased by 120% compared to the virgin interface composite. In the case of carbon/epoxy composite laminates interlaced with polyamide fibers, the mechanical properties, such as the tensile strength and fatigue properties, were improved as tensile modulus decreased.

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Effect of polyamide-6,6 (PA 66) nonwoven veils on the mechanical performance of carbon fiber/epoxy composites

Cited by 94 publications

References 36 publications

Experimental and statistical analysis of carbon fiber/epoxy composites interleaved with nylon 6,6 nonwoven fabric interlayers

Experimental and statistical analysis of carbon fiber/epoxy composites interleaved with nylon 6,6 nonwoven fabric interlayers

Investigation of toughening effect of biomass‐derived SiCB on basalt fiber‐reinforced unsaturated polyester composites

Effect of toughened polyamide/carbon fiber interlace braid fabric on the mechanical performance of CFRP laminates

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