Electromagnetic and thermal properties of three-dimensional printed multilayered nano-carbon/poly(lactic) acid structures

Paddubskaya, A.; Valynets, N.; Kuzhir, P.; Батраков, К. Г.; Maksimenko, S. A.; Kotsilkova, Rumiana; Velichkova, Hristiana; Petrova, Ivanka; Bíró, István; Kertész, Krisztián; Márk, Géza I.; Horváth, Zsolt Endre; Biró, László Péter

doi:10.1063/1.4945576

Cited by 44 publications

(40 citation statements)

References 29 publications

(31 reference statements)

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“…The high aspect ratio, as well as the high elec trical conductivity of GNP particles, generally define their EM properties in the microwave and THz ranges and make these carbon additives very promising for solving problems related to effective broadband absorption and shielding of EM radiation. In particular, PLA filled with GNP, carbon nano tubes, and other nanocarbons is one of the best candidates to produce layered structures or structures with different sophisticated geometries via additive manufacturing (see for example [25][26][27]).…”

Section: Introductionmentioning

confidence: 99%

Terahertz absorption in graphite nanoplatelets/polylactic acid composites

Bychanok

Angelova

Paddubskaya

et al. 2018

J. Phys. D: Appl. Phys.

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The electromagnetic properties of composite materials based on poly(lactic) acid (PLA) filled with graphite nanoplatelets (GNP) were investigated in the microwave (26-37 GHz) and terahertz (0.2-1 THz) frequency ranges. The maximum of the imaginary part of the dielectric permittivity was observed close to 0.6 THz for composites with 1.5 and 3 wt.% of GNP. The experimental data of complex dielectric permittivity of GNP/PLA composites was modelled using the MaxwellGarnett theory. The effects of fine dispersion, agglomeration, and percolation in GNPbased composites on its electromagnetic constitutive parameters, presence, and position of THz absorption peak are discussed on the basis of the modeling results and experimental data. The unique combination of conductive and geometrical parameters of GNP embedded into the PLA matrix below the percolation threshold allow us to obtain the THz absorptive material, which may be effectively used as a 3Dprinting filament.

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Section: Introductionmentioning

confidence: 99%

Terahertz absorption in graphite nanoplatelets/polylactic acid composites

Bychanok

Angelova

Paddubskaya

et al. 2018

J. Phys. D: Appl. Phys.

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“…PLA/mHA showed no significant T g,PLA change. As the TG results showed that only 1.4 wt% KH560 was grafted on the HA surface, which could not confine the mobility of the PLA chains, the HA nano fillers had a negligible effect on T g,PLA . An exothermic peak at ∼108°C is shown in Fig.…”

Section: Resultsmentioning

confidence: 95%

Preparation of poly(vinyl alcohol)/poly(lactic acid)/hydroxyapatite bioactive nanocomposites for fused deposition modeling

Chen

Bai

et al. 2017

Polymer Composites

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Poly(vinyl alcohol)/hydroxyapatite (PVA/HA) has excellent mechanical properties and osteoconductivity that allow it to be used for cartilage repair. However, nanofillers, such as HA, cause PVA to foam during the extrusion process, making it difficult to produce filament feedstocks with uniform diameters that are suitable for fused deposition modeling (FDM). In this article, a novel method was developed to prevent the foaming of PVA‐based nanocomposites during extrusion by selectively distributing HA in the poly(lactic acid) (PLA) phase. To achieve this, HA was treated with 3‐Glycidoxypropyltrimethoxysilane (KH560). The results showed that HA treated with KH560 was segregated from the PVA phase, thus preventing the foaming of PVA. Finally, filament feedstocks with a uniform diameter of 1.75 ± 0.05 mm, which is suitable for FDM, were successfully fabricated. Meanwhile, a mathematical equation for characterizing the printability of feedstock materials was improved. The results indicated that in combination with PLA, composites with a higher compressive modulus and better melt flowability were able to be processed by FDM. Finally, complex PVA‐based bioactive nanocomposite scaffolds with high dimensional accuracy, good mechanical properties, and biocompatibility were fabricated by the FDM machine. POLYM. COMPOS., 39:E508–E518, 2018. © 2017 Society of Plastics Engineers

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“…Summarizing, we can conclude that along with polymer composites comprising graphene (see Ref. ), such thin films can be very suitable materials for producing effective absorbers, electromagnetic shielders, for design of high‐frequency power detectors and sensors for microwave and THz radiations.…”

Section: Discussionmentioning

confidence: 92%

“…The effective thin films conductivity (see Table ) was extracted from the experimental data using the procedure detailed elsewhere . In the numerical calculation, the dielectric permittivity of pure quartz was set as 3.8 + 0.025i.…”

Section: Resultsmentioning

confidence: 99%

Fluorination as Effective Method for Tuning the Electromagnetic Response of Graphene

Valynets

Paddubskaya

Kuzhir

et al. 2017

Physica Status Solidi (b)

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Fluorinated graphene (FG) has been obtained by a fluorination of thermally exfoliated graphite fluoride C 2 F layers using a gaseous mixture of BrF 3 and Br 2 at room temperature. Comparative study of electromagnetic (EM) response of thin FG films after recovering their conductivity via different methods is presented in microwave (GHz) and terahertz (THz) frequency ranges. We discovered that fluorination can be used as promising tool for producing tunable EM interference (EMI) shielding materials, combining reflective and absorptive layers.

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Electromagnetic and thermal properties of three-dimensional printed multilayered nano-carbon/poly(lactic) acid structures

Cited by 44 publications

References 29 publications

Terahertz absorption in graphite nanoplatelets/polylactic acid composites

Terahertz absorption in graphite nanoplatelets/polylactic acid composites

Preparation of poly(vinyl alcohol)/poly(lactic acid)/hydroxyapatite bioactive nanocomposites for fused deposition modeling

Fluorination as Effective Method for Tuning the Electromagnetic Response of Graphene

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