A comprehensive methodology to support decision-making for additive manufacturing of short carbon-fiber reinforced polyamide 12 from energy, cost and mechanical perspectives

Gentil, Thibault Le; Therriault, Daniel; Kerbrat, Olivier

doi:10.1007/s00170-023-11161-2

Cited by 3 publications

(1 citation statement)

References 41 publications

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“…It is worth noting that the present 3D printing CF/PA12 composite exhibits the largest tensile strength comparing to other 3D printing CF/PA12 composite reported in previous works [21][22][23][24][25][26][27][28][29] (Fig. 2D).…”

Section: Fabrication and Mechanical Properties Of 3d Printing Cf/pa12...supporting

confidence: 44%

Microwave radiation-induced interfacial gradient effect of 3D printing CF/PA12 composite for enhancing mechanical performance

Zhang,

Zhi,

et al. 2023

Preprint

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A new carbon fiber/polyamide12 (CF/PA12) composite with ordered orientation is fabricated by combining with 3D printing and microwave radiation. It is found that the tensile strength and modulus of 3D printing CF/PA12 composite with microwave radiation are obviously improved by 23.8% and 10.2% comparing with the original specimen, respectively. The effect of microwave radiation on micro-structure and fiber-matrix interface of 3D printing CF/PA12 composite are investigated by nanoindentation and 3D X-ray computed tomography. The enhanced mechanical properties are mainly attributed to the microwave radiation-induced interfacial gradient effect of 3D printing CF/PA12 composite. The work does not only confirm the formation of 3D printing CF/PA12 composite with good mechanical properties, but also comprehensively clarifies the mechanism of the microwave radiation effect on 3D printing polymer composite based on carbon fiber.

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Section: Fabrication and Mechanical Properties Of 3d Printing Cf/pa12...supporting

confidence: 44%

Microwave radiation-induced interfacial gradient effect of 3D printing CF/PA12 composite for enhancing mechanical performance

Zhang,

Zhi,

et al. 2023

Preprint

View full text Add to dashboard Cite

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A new mechanism of mechanical reinforcement for 3D printing CF/PA12 composite based on microwave treatment

Zhang,

Zhi,

et al. 2024

Polymer Composites

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Although 3D printing technology has been widely applied in fabrication of polymer composite, yet, it still exhibits low mechanical performance, restricting its application in structural materials. Herein, a new 3D printing polymer composite composed of carbon fiber and polyamide12 (PA12) is fabricated and subsequently treated by microwave treatment. It is found that the tensile strength and modulus of 3D printing CF/PA12 composite with microwave treatment are improved by 23.8% and 10.2% compared with the original specimen, respectively. Moreover, a new mechanism of mechanical reinforcement is investigated and proposed by nanoindentation and 3D X‐ray computed tomography. The work does not only confirm formation of 3D printing CF/PA12 composite with good mechanical properties, but also proposes a new mechanism of microwave treatment effect on 3D printing polymer composite based on carbon fiber.Highlights A new 3D printing CF/PA12 composite based on microwave treatment is developed. The 3D printing composite exhibits good mechanical properties. A new mechanism of mechanical reinforcement is proposed.

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Electricity use in big area additive manufacturing of fiber-reinforced polymer composites

Chen,

Pilla,

et al. 2024

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A comprehensive methodology to support decision-making for additive manufacturing of short carbon-fiber reinforced polyamide 12 from energy, cost and mechanical perspectives

Cited by 3 publications

References 41 publications

Microwave radiation-induced interfacial gradient effect of 3D printing CF/PA12 composite for enhancing mechanical performance

Microwave radiation-induced interfacial gradient effect of 3D printing CF/PA12 composite for enhancing mechanical performance

A new mechanism of mechanical reinforcement for 3D printing CF/PA12 composite based on microwave treatment

Electricity use in big area additive manufacturing of fiber-reinforced polymer composites

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