The influence of halloysite on the physicochemical, mechanical and biological properties of polyurethane-based nanocomposites

Mrówka, Maciej; Szymiczek, M.; Machoczek, Tomasz; Lenża, Joanna; Matusik, Jakub; Sakiewicz, P.; Skonieczna, Magdalena

doi:10.14314/polimery.2020.11.5

Cited by 8 publications

(9 citation statements)

References 20 publications

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“…The obtained results showed that the particles of inorganic constituents can significantly reduce the friction coefficient, even small weight fractions of the filler. The influence of filler in the form of inorganic particles on the preservation of the mechanical and physicochemical properties of polymers can be determined by changing the composition of the filler [ 33 , 34 , 35 ].…”

Section: Introductionmentioning

confidence: 99%

The Influence of Zinc Waste Filler on the Tribological and Mechanical Properties of Silicone-Based Composites

et al. 2021

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Silicones are often used for various types of coatings, but due to their poor mechanical properties, they often require modification to meet specific requirements. At the same time, various production processes throughout the world generate different types of waste, the disposal of which is harmful to the environment. One possible solution is to use production waste as a filler. In this paper, the authors investigated how the use of metallurgical production waste products as fillers changed the mechanical properties of silicone composites prepared by casting. Composite samples were characterized using tensile tests, resilience, pin-on-disc, Schopper–Schlobach abrasion, hardness, and density measurements. Based on the obtained results, the authors assessed the effect of each of the fillers used in different weight proportions. The results showed that the silicone composite filled with 5 wt% zinc dust showed the lowest decrease in tensile strength and Young’s modulus, with a simultaneous significant reduction in abrasion compared with the reference sample. This research shows that zinc waste can be successfully introduced into a silicone matrix in cases where it is important to reduce abrasive wear.

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Section: Introductionmentioning

confidence: 99%

The Influence of Zinc Waste Filler on the Tribological and Mechanical Properties of Silicone-Based Composites

et al. 2021

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“…The 3D printing of these materials provides many advantages, including unique tailoring to a patient's needs, which is in line with the current trend of personalized medicine [27,28]. The conducted preliminary tests, including plate-tubular halloysite, proved that twin-screw extrusion provides nanocomposites with improved mechanical properties compared with the original matrix with no toxicity to normal cells [29]. The scheme of the research methodology is shown in Figure 1.…”

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confidence: 71%

Influence of the Halloysite Nanotube (HNT) Addition on Selected Mechanical and Biological Properties of Thermoplastic Polyurethane

et al. 2021

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Halloysite nanotube (HNT) additions to the thermoplastic polyurethane (TPU) system were thoroughly evaluated in this study. The resultant composites have been designed for future personalized intervertebral disc implant applications, which requires additional technology to obtain the appropriate geometry unique to each patient. These requirements can be fulfilled using 3D printing. In this work, a technology was developed to produce filaments for fused deposition modeling (FDM). Nanocomposites were prepared using variable HNT content (1, 2, and 3 wt.%). The nanostructure of the resultant composites was confirmed using scanning transmission electron microscopy (STEM). Mechanical tests were used to measure the tensile modulus, stress, and elongation the composites and TPU matrix. Nanocomposites with 2% HNT content were able to withstand 26% increased stress and 50% increased elongation compared to pure TPU before fracturing in addition to a 13% reduction in the friction coefficient. A MTT cytotoxicity assay confirmed the cytotoxicity of all tested materials against human epidermal keratinocyte cells (HaCaT).

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“…The cytotoxicity of the tested composites was obtained according to the standard procedures against model cell lines [29,30,32]. The viability and proliferation assays, such as an MTT assay, allowed for biocompatibility of different, natural, or synthetic agents assessments [32,33].…”

Section: Cytotoxicity Test Resultsmentioning

confidence: 99%

“…Cytotoxicity testing of composite samples according to the procedure described earlier [29,30]. Cell viability of normal human dermal fibroblasts (NHDF, Lonza) was assessed using an MTT (3-[4-5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide) test.…”

Section: Cytotoxicity Testing Of Composite Samplesmentioning

confidence: 99%

The Impact of Wood Waste on the Properties of Silicone-Based Composites

2020

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The impact of wood waste on the mechanical and biological properties of silicone-based composites was investigated using wood waste from oak, hornbeam, beech, and spruce trees. The density, abrasion resistance, resilience, hardness, and static tensile properties of the obtained WPC (wood–plastic composites) were tested. The results revealed slight changes in the density, increased abrasion resistance, decreased resilience, increased hardness, and decreased strain at break and stress at break compared with untreated silicone. The samples also showed no cytotoxicity to normal human dermal fibroblast, NHDF. The possibility of using prepared composites as materials to create structures on the seabed was also investigated by placing samples in a marine aquarium for one week and then observing sea algae growth.

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The influence of halloysite on the physicochemical, mechanical and biological properties of polyurethane-based nanocomposites

Cited by 8 publications

References 20 publications

The Influence of Zinc Waste Filler on the Tribological and Mechanical Properties of Silicone-Based Composites

The Influence of Zinc Waste Filler on the Tribological and Mechanical Properties of Silicone-Based Composites

Influence of the Halloysite Nanotube (HNT) Addition on Selected Mechanical and Biological Properties of Thermoplastic Polyurethane

The Impact of Wood Waste on the Properties of Silicone-Based Composites

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